copertina en 1 2 - R.V.R. Elettronica · mechanic, including ... New section chap.8 I/O interface...

PJ5KPS

User & TechnicalManual

Manifactured by Italy

PJ5KPS - Use and maintenance manualVersione 1.5

© Copyright 2003-2006R.V.R. Elettronica SpAVia del Fonditore 2/2c - 40138 - Bologna (Italia)Telefono: +39 051 6010506Fax: +39 051 6011104Email: [email protected]: www.rvr.it

All rights reservedPrinted and bound in Italy. No part of this manual may be reproduced,memorized or transmitted in any form or by any means, eletronic ormechanic, including photocopying, recording or by any informationstorage and retrieval system, whithout the permission of the copyrightowner.

Docum ent History Date Version Reason Editor 30/01/02 1.0 First Version D. Canazza

24/10/02 1.1 General Revision. New form at (PageM aker). Insert of chapter 8. Technical appendix integrated. D. Canazza

18/11/02 1.2

Stand-by functions update. Power-on procedure corrections. New section chap.8 I/O interface board. New schem atic version of W iring diagram and PSSW 5040

D. Canazza

19/12/03 1.3 Insert of chapter 9. Technical Appendix upgradated. J. Berti 31/10/05 1.4 SLPW RM TRPJ5 Board Upgrade J. Berti 08/02/06 1.5 SL042M T1001 and SL042RF1001 board upgrading J. Berti

Notification of intended purpose and limitations of product useThis product is a FM transmitter intended for FM audio broadcasting. It utilisesoperating frequencies not harmonised in the intended countries of use.The user must obtain a license before using the product in intended country ofuse. Ensure respective country licensing requirements are complied with.Limitations of use can apply in respect of operating freuency, transmitter powerand/or channel spacing.

Declaration of ConformityHereby, R.V.R. Elettronica SpA, declares that this FM transmitter is incompliance with the essential requirements and other relevant provisions ofDirective 1999/5/EC.

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PJ5KPS

iUser & Technical Manual Rev. 1.5- 08/02/06

Table of Contents1. Introduction 12. Warranty 33. First Aid 5

3.1 Treatment of electrical shocks 53.2 Treatment of electrical Burns 6

4. General Description 74.1 Composition 74.2 Technical specifications 74.3 Options 84.4 Operating principles 8

5. Installation and use 115.1 Assembly 115.2 Amplifier check 155.3 First start 185.4 Management of the exciters 215.5 Protection and alarms 24

6. Troubleshooting 257. Technical description 26

7.1 Software - Reference guide 267.2 Parallel Interface 387.3 Power supply section 427.4 RF Modules amplifier 497.5 Alarms 507.6 Combiner and divider 52

8. Technical Notes 538.1 Microcontrol board Trimmers 538.2 Phase Adhutment of RF modules 548.3 Splitter board trimmers 548.4 Parallel Interface 558.5 RF module I/O Interface 568.6 Services supply 578.7 Emergency CCU Board 588.8 PJ5KPS Ventilation 62

9. Digital Telemetry (TLC5KPS) 649.1 Foreword 649.2 Installation 649.3 Technical details 76

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ii User & Technical ManualRev. 1.5- 08/02/06

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PJ5KPS

1 / 80User & Technical Manual Rev. 1.5 - 08/02/06

1. IntroductionThis manual describes the PJ5KPS, a solid-state RF amplifier designed forfrequency modulation sound broadcasting, manufactured by R.V.R. Elettronica.The PJ5KPS amplifier constitutes the end power section for FM transmitters fittedwith different possible configurations. A control system for the exciters is built intothe machine so that in order to have a system with redundant exciters, all thatneeds to be done is to include two exciters in the transmitter such as, for example,the PTX30LCD exciters made by R.V.R. Elettronica.

The manual is structured as follows:

� Chapter 1: Presentation of the manual

� Chapter 2: Warranty conditions

� Chapter 3: Safety recommendations

� Chapter 4: Description of the machine and its operating principles

� Chapter 5: Guide for installation and use

� Chapter 6: Most frequent troubleshooting cases on starting up the machine

� Chapter 7: In-depth description of the operation of the modules of the apparatus.This chapter also contains the description of the pin configuration of theconnectors and explains how to use the control unit menus, item by item.

� Chapter 8: technical notes.

� Appendix: It contains all the design details (wiring diagrams, assembly plans,etc.) of the PJ5KPS.

This manual is written as a general guide for those having previous knowledgeand experience with this kind of equipment, well conscious of the risks connectedwith the operation of electrical equipment.

It is not intended to contain a complete statement of all safety rules which shouldbe observed by personnel in using this or other electronic equipment.

The installation, use and maintenance of this piece of equipment involve risksboth for the personnel performing them and for the device itself, that shall be usedonly by trained personnel.

R.V.R. Elettronica SpA doesn�t assume responsibility for injury or damage resultingfrom improper procedures or practices by untrained/unqualified personnel in thehandling of this unit.

Please observe all local codes and fire protection standards in the operations ofthis unit.

WARNING: always disconnect power before opening covers or removing anypart of this unit.Use appropriate grounding procedures to short out capacitors and high voltage

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2 / 80 User & Technical ManualRev. 1.5 - 08/02/06

points before servicing.

WARNING: this device can irradiate radio frequency waves, and if it�s not installedfollowing the instructions contained in the manual and local regulations it couldgenerate interferences in radio communications.This is a "CLASS A" equipment. In a residential place this equipment can causehash. In this case can be requested to user to take the necessary measures.

R.V.R. Elettronica SpA reserves the right to modify the design and/or the technicalspecifications of the product and this manual without notice.

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2. WarrantyAny product of R.V.R. Elettronica is covered by a 24 (twentyfour) month warranty.

For components like tubes for power amplifiers, the original manufacturer�s warrantyapplies.R.V.R. Elettronica SpA extends to the original end-user purchaser allmanufacturers warranties which are transferrable and all claims are to be madedirectly to R.V.R. per indicated procedures.

Warranty shall not include:

1 danni verificatisi durante la spedizione della macchina alla R.V.R. per eventualiriparazioni;

2 Any unauthorized repair/modification;

3 Incidental/consequential damages as a result of any defect

4 Nominal non-incidental defects

5 Re-shipment costs or insurance of the unit or replacement units/parts

Any damage to the goods must be reported to the carrier in writing on the shipmentreceipt.

Any discrepancy or damage discovered subsequent to delivery, shall be reportedto R.V.R. Elettronica within 5 (five) days from delivery date.

To claim your rights under this warranty, you shold follow this procedure:

1 Contact the dealer or distributor where you purchased the unit. Describe theproblem and, so that a possible easy solution can be detected.

Dealers and Distributors are supplied with all the information about problemsthat may occur and usually they can repair the unit quicker than what themanufacturer could do. Very often installing errors are discovered by dealers.

2 If your dealer cannot help you, contact R.V.R. Elettronica and explain theproblem. If it is decided to return the unit to the factory, R.V.R. Elettronicawill mail you a regular authorization with all the necessary instructions to sendback the goods.

3 When you receive the authorization, you can return the unit. Pack it carefullyfor the shipment, preferably using the original packing and seal the packageperfectly. The customer always assumes the risks of loss (i.e., R.V.R. is neverresponsible for damage or loss), until the package reaches R.V.R. premises.For this reason, we suggest you to insure the goods for the whole value.Shipment must be effected C.I.F. (PREPAID) to the address specified by R.V.R.�sservice manager on the authorization

DO NOT RETURN UNITS WITHOUT OUR AUTHORIZATION AS THEY WILLBE REFUSED

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4 Be sure to enclose a written technical report where mention all the problems foundand a copy of your original invoice establishing the starting date of the warranty.

Replacement and warranty parts may be ordered from the following address. Besure to include the equipment model and serial number as well as part descriptionand part number.

R.V.R. Elettronica SpAVia del Fonditore, 2/2c40138 BOLOGNAITALYTel. +39 051 6010506

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3. First AidThe personnel employed in the installation, use and maintenance of the device,shall be familiar with theory and practice of first aid..

3.1 Treatment of electrical shocks

3.1.1 If the victim is not responsive

Follow the A-B-C's of basic life support

� Place victim flat on his backon a hard surface.

� Open airway: lift up neck, push forehead back (Fig. 3-1).

� clear out mouth if necessary and observe for breathing

� if not breathing, begin artificial breathing (Figure 3-2): tilt head, pinch nostrils,make airtight seal, four quick full breaths. Remember mouth to mouthresuscitation must be commenced as soon as possible

Figure 3-1 Figure 3-2

� Check carotid pulse (Fig 3-3); if pulse is absent, begin artificial circulation(Fig. 3-4) depressing sternum (Fig. 3-5)

Figure 3-3 Figure 3-4 Figure 3-5

� In case of only one rescuer, 15 compressions alternated to two breaths.

� If there are two rescuers, the rythm shall be of one brath each 5 compressions.

� Do not interrupt the rythm of compressions when the second person is givingbreath.

� Call for medical assistance as soon as possible.

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3.1.2 If victim is responsive� Keep them warm

� Keep them as quiet as possible

� Loosen their clothing (a reclining position is recommended)

� Call for medical help as soon as possible

3.2 Treatment of electrical Burns

3.2.1 Extensive burned and broken skin� Cover area with clean sheet or cloth

� Do not break blisters, remove tissue, remove adhered particles of clothing, orapply any salve or ointment.

� Treat victim for shock as required.

� Arrange transportation to a hospital as quickly as possible.

� If arms or legs are affected keep them elevated

If medical help will not be available within an hour and the victim is conscious andnot vomiting, give him a weak solution of salt and soda: 1 level teaspoonful of saltand 1/2 level teaspoonful of baking soda to each quart of water (neither hot orcold). Allow victim to sip slowly about 4 ounces (half a glass) over a period of 15minutes. Discontinue fluid if vomiting occurs

DO NOT give alcohol

3.2.2 Less severe burns� Apply cool (not ice cold) compresses using the cleansed available cloth article.

� Do not break blisters, remove tissue, remove adhered particles of clothing, orapply salve or ointment.

� Apply clean dry dressing if necessary.

� Treat victim for shock as required.

� Arrange transportation to a hospital as quickly as possible

� If arms or legs are affected keep them elevated.

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4. General DescriptionThe PJ5KPS is a RF amplifier for frequency modulation sound broadcasting. It is afully solid-state apparatus of modern design that uses MOSFET as active componentsin the FM amplifying modules. This chapter briefly describes the machine's mainfeatures.

4.1 Composition

The PJ5KPS amplifier is made up of modules inserted in a 19" rack. The mainmodules are as follows:

� 1 Control unit

� 5 1.2 kW RF amplifier modules

� 1 Control unit

� 1 or 2 Power supply unit carriages

� 1 Splitter/Input RF

The amplifier is supplied complete with all its parts, not really "modules", essentialfor its operation such as the fans for dissipating the heat generated by the machineinside the room and all the accessories for the electrical and RF wiring. As a rule, theamplifier is supplied as a complete transmitter therefore the two FM exciters that itmanages will be provided and connected (a service exciter and a spare exciter).

4.2 Technical specifications

Frequency range 87.5 to 108.0 MHzNominal RF power 5000 WPower supply voltage 380 Three-phase, 3F+NExciting power Max. 30 WConsumption < 9.5 kWPower factor > 0.95

Additional important features of the PJ5KPS are as follows:

� The 1.2 kW amplifying modules are implemented by means of plug-in technology:the individual modules may be removed for performing maintenance operations,for instance, without having to turn off the transmitter. The transmitter keeps workingat reduced power even if the module has been removed. This operation may becarried out without any risk of damaging the module itself, or the amplifier as awhole, thanks to the control system and to the RF connectors, the power supplyand the purposely designed data-exchange. For further information refer to themaintenance section.

� Each module is controlled by a microprocessor-based card that checks andadjusts its operating mode. The resulting data are transmitted to the control unit.

� The control unit manages the changeover of the two exciters both in automaticand manual mode.

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� The amplifier may be equipped with a dual power supply/rectifier module. Bothmodules operate in this case the configuration is in �hot stand-by� since bothsupply, when operating under normal conditions, half of the current required bythe machine to work. When one module is absent or faulty, the module that ispresent supplies all the required current by itself. The sufficient dimensioning ofeach power supply unit guarantees that the machine will work efficiently at itsnominal power level.

� The amplifier can work as usual even if the control unit is not present. In fact, thecontrol unit may be substituted temporarily with an electromechanical interfaceby means of which the user may give the ON and OFF commands to the machine.However, in this case all the numeric type information will be missing and thepower level remains the last one enabled before removing the control unit.

4.3 Options

The PJ5KPS envisages the following options:

� Single or dual power supply carriage

� Single or dual exciter

� N+1 configuration

� Different kinds of exciters

� Automatic restore after safety tripping or manual restore

4.4 Operating principles

This description is based on the block diagram shown in Figure 4-1.

The PJ5KPS amplifier essentially comprises three blocks:

� The power supply section

� The Splitter-Coupler section

� The RF amplifier section

The power supply section of the PJ5KPS amplifier is made up of one or two three-phase transformers, each one associated with a rectifier circuit for generating thenon-stabilized voltage of 80V that supplies the RF modules. The transformers andthe rectifier circuits are mounted on removable carriages together with powerinductors that help achieve a power factor of about 94%.

The power supply unit carriage is dimensioned for supplying all the power requiredfor the PJ5KPS to operate at full power. Therefore the configuration of the machinewith two power supply unit carriages is a hot stand-by redundant one.

The power supply section is controlled by a microprocessor-based card installed inthe rack.

The Splitter-Coupler section performs all the treatment of the RF signal except for thepower amplification.

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The RF signals generated by two exciters (in the redundant configuration) are firstattenuated by 6 dB to improve the uncoupling among the stages and then connectedto a coaxial relay commanded by the control unit. One of the two signals is closed ona dummy load built into the machine whereas the other signal is connected to theinput splitter. The power of both signals is measured by specific directional couplers.

The RF signal of the selected exciter is divided into five branches, each of which ispassed to the input of an amplifying module.

-6 d

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Figure 4-1 Block diagram of the PJ5KPS

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The five RF amplifiers branches are recombined by the coupler at the output of theamplifying modules. The overall amplified RF signal is filtered by a low-pass filter foreliminating the harmonics and is therefore available at the output connector.

The Splitter-Coupler section is controlled by a microprocessor-based card, whichmakes the values detected at the various measuring points available for the userand for the diagnostics functions.

The machine contains five RF amplifier modules each of which is capable of supplyinga maximum of 1.2 kW RF. Each module includes a switching mode power supply unitthat regulates and stabilizes the power supply voltage supplied by the power supplysection.

Each amplifying module contains a first stage with gain that varies according to theMOSFET BLF175. The RF signal amplified by the driver is then separated into fourbranches, amplified by four modules based on BLF 278, recombined and filtered bya low-pass filter.

Each RF amplifying module is controlled by a microprocessor-based card, connectedto the other microprocessor-based cards of the machine by means of a RS485 typebus.

Each module runs the Automatic Power Control function for regulating the suppliedpower: the gain of the amplifying stages and the voltage supplied by the switchingpower supply unit are regulated so that the power that is output from the modulecorresponds, if possible, to the set level.

The overall power that the PJ5KPS must supply is controlled by the microprocessor-based card of the splitter-combiner section according to the settings made on thecontrol unit for the NOMINAL POWER and LOWER POWER parameters.

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5. Installation and useThis chapter contains the basic instructions for installing and using the PJ5KPSamplifier. If necessary, more in-depth information about the operating principles maybe traced in the next chapters.

5.1 Assembly

For practical reasons and for transport safety, the machine is usually supplied disas-sembled to the customer. The assembly procedure is rather simple and can be car-ried out by any qualified technician.

Caution: In order to avoid the risk of damaging the machine and/or of injuring theoperators, it is advisable to closely adhere to the instructions provided below. alwaysrespect all the safety regulations and standards in force.

Identify the machine components:

� The rack (various components are assembled, such as the coupler, the splitter,the control unit, the main blower) [Figure 5-1 a)]

� The 5 RF modules [Figure 5-1 b)]

� One or two transformer/rectifier carriages [Figure 5-1 c)]

� The exciters [Figure 5-1 d)]. (As a rule the amplifier is supplied as a completetransmitter. This example shows two PTXLCD exciters produced by R.V.R.Elettronica. Usually the exciters are pre-assembled inside the rack).

Check that all the components are in perfect working order. Should there be any kindof problem, for instance if there is any damage caused by the transport of thecomponents, read the instructions associated with the Warranty at the beginning ofthis manual (chapter 2).

1. Install the rack in the location where the transmitter will work. The rack is mountedon wheels for simplifying its movement, therefore after having positioned it whereexpected, it is advisable to use the four screws at the bottom of the rack to steadyit perpendicular to the ground.

The transmitter is cooled by forced ventilation. The air outlet is on the machine'sroof whereas in the standard configuration the air intake is envisaged at the backof the machine. If you opt for this solution, install the machine at least 50 cm. awayfrom the back wall, so that air can flow under optimal conditions. The air inlet mayalso be delivered from the machine's roof, by removing the cover from the holethat is pre-cut in the roof for this purpose.

2. Remove the protection panels of the RF modules and the power supply unitcarriages from the rack. Also remove the stop bar of the power supply unitcarriages that is at the bottom of the rack.

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3 Insert the first amplifying module into the RF modules compartment [Figure5-2].

a) b)

c) d)

Figure 5-1 Components of the PJ5KPS

Figure 5-2 Inserting a RF module

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The modules have a groove at the top and one at the bottom: insert the modulesso that the guides in the compartment fit into these grooves. Slide the moduleuntil the two fixing screws fit into their seats. Then tighten the fixing screws at thesame time so that the module inserts into its compartment remaining parallel untilit is perfectly in place.

4. Repeat the operation with the other four RF modules.

5. Insert the first transformer carriage into the left-hand side of the specificcompartment. The carriage is mounted on three wheels (two are fixed on the frontside and one pivoting rear wheel) to facilitate this operation. Move the carriagetoward the left-hand wall of the rack [Figure 5-3] and then move it forward until theconnectors at the back are perfectly in-serted into their seats.

!The power supply unit carriage is very heavy and its barycenter is high, therefore becareful when handling it to avoid tipping it over.6. If you have a redundant power supply unit, insert the second power supply unit

carriage as you did with the first one.

7. Position the stop bar of the power supply unit carriages.

8. Make the necessary connections of the power supply unit carriages :

� Power supply connector [Figure 5-4 a)]

� Data connectors [Figure 5-4 b)]

9. Connect the machine's main power supply cable. Route the cable (5-pole type)through the raceway on the machine's roof [Figure 5-5 a)] and fix the conductorsto the terminals of the master switch [Figure 5-5 b)]. The last operation is usuallyperformed by removing the knob and the cover of the isolating switch.

Figure 5-3 Power supply carriage connectors

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! Caution: The connection of the machine to the electric alimentation is performedfixing to a 5 poles cable with bare terminals to a terminal block. Making sure withoutany possibility of error that the cable is not under tension while working on it.It is reccomended not to turn on the machine without first have connected the RF exitto the antenna or to the dummy load!The PJ5KPS requires triphase alimentation (3F+ N) able to give 16A for phase.Keep this requirement in mind in connecting to the personal distribution board.

10.Reposition the protection panels of the RF modules and of the transformer/rectifiercarriages.

11. If the PJ5KPS was not supplied complete with pre-assembled exciters, insertand connect the exciters into the appropriate housings. The connecting cablesfor the exciters are already inside the rack, namely:

� Right/MPX bal. audio connection (XLR connector)

a) b)

Figure 5-4 Power supply carriage connectors

a) b)

Figure 5-5 Power supply cable

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� Left/Mono audio connection (XLR connector)

� MPX unbal. audio connection (BNC connector)

� Power supply (VDE connector)

� Control connector (DB15 connector)

Now you may may perform the preliminary checks on the amplifier and start it up.

NB The connectors on the roof of the machine are not in parallel but directly connect tothe eciters (L and R exciter 1, L and R exciter 2 etc). Keep this in mind to make theaudio connections, that in some cases can require,for example, the use of an audiodistributor.

5.2 Amplifier check

The operator controls and checks the status of the PJ5KPS by means of the controlunit. Three control groups are present on this unit:

o LCD and scroll buttons

o Buttons, selector switches and LEDs

o Analog instrument and rotary selector switch

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5.2.1 Display LCD

The operator uses the control software of the transmitter by means of a series ofmenus that are displayed on the LCD. Four specific keys are provided for scrollingthrough the menus, performing the settings and giving the commands:

Pulsante DescrizioneOK Click this button to access a sub-menu, to enter the editing mode or to

confirm a modified value.ESC Click this button to exit from a menu or to cancel the modification of a

value.Click this button to scroll inside a menu (to the right or down) or toreduce the value of a parameter being modified.Click this button to scroll inside a menu (to the left or up) or to increasethe value of a parameter being modified.

When the operator is not using the various buttons to navigate, the LCD displays thepreset screenful that shows the overall status of the machine's modules (Figure 5-6).The control unit acquires, every second, the status of the other modules by means ofan RS485 serial bus. The activity at the bus is signaled by the "BUS INT" LEDs onthe unit's panel.

Figure 5-6 Default screenful

Figure 5-7 Menu select screenful

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As indicated on the preset screenful, push the ESC button to access the screenful forselecting the menus (Figure 5-7).

On reaching the selection screenful, move the cursor (full rectangle) using the arrowkeys to display the concerned line. Then click OK to access the associated menu.Select the "General Status" menu to return to the preset screenful.

5.2.2 Buttons, selector switches and LEDs

The typical machine-control operations are performed using the buttons of the controlunit's panel. Specific LEDs correspond to each button and selector switch forindicating the machine's status.

The functions performed by the controls are as follows:

Function DescriptionOFF Button for turning off the machine. A LED signals that the machine is

OFF. In this status, the exciters and the fan are off and the RFamplifying modules are not powered.

STDBY Button for setting the machine in standby. In this status the transmitterdoes not emit any power, but is ready to start the transmission: themain blower is on, the RF modules are not powered, the exciters are onbut locked by means of an interlock. The stand-by is used to test theexciters, in fact in manual modality the operator could arrange them inbase to the own requirements; coming from an �On� in manual modality,the system does not touch the interlock. Stand-by status is signalledfrom a LED.In manual and in stand-by the inhibit of the device doesn't intervene onthe interlock of the exciters. This could necessary when the apparatusis in configuration n+1 for verify if the exciters are operational.

ON Button for turning on the transmitter. The RF power supply is activated.LOC/REM Selector switch for setting the transmitter in remote or local mode. In

local mode the buttons and the controls via the menus are active. Inremote mode the buttons and the controls via the menus are inhibitedand the commands may be given only remotely via the parallel interfaceor via the remote control software.

ALARM RESET Button for zeroing the FAULT or WARNING alarms.NOMINAL POWER Click this button to set the transmitter for supplying the nominal power

level. A specific LED signals this setting. The value that corresponds tothe nominal level is set by the operator using the menu settings inSection 7.1.8.

POWER LOWER Click this button to set the transmitter for supplying the reduced powerlevel. A specific LED signals this set-ting. The value that corresponds tothe reduced level is set by the operator using the menus.

EXCITER CHANGEOVER Use this button to set the changeover system in manual or automaticmode. The signaling LED turns on when the manual mode is selected.On performing a changeover, the exciter connected to the amplifier isdeviated toward the internal dummy load and vice-versa. The operator

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must use the exciters menu to perform the changeover in manual mode.LEDs (Wait, Warning, Fault) Other signaling LEDs are connected to the alarm states and to

the serial data transmissions that take place among themicroprocessorbased cards. The function of these LEDs is describedfurther on in this manual.

5.2.3 Analog instruments

The control unit of PJ5KPS contains an analog meter with a rotating selector that areuseful for an immediate display of the following parameters:

FWD PWR Transmitter direct powerRFL PWR Transmitter reflected powerUNBAL Transmitter unbalancing powerPWR EXC1 Power supplied by the exciter currently connected to the amplifier. This

value is measured by the machine in the splitter sectionPWR EXC2 Power supplied by the exciter currently connected to the internal load.

This value is measured by the amplifier in the splitter sectionEXT FWD PWR Direct power of an external combiner.EXT RFL FWD Reflected power of an external combiner.EXT UNBAL Unbalancing power of an external combiner.

These three values are used when the transmitter is connected to a 1+1system. The SET outputs may also be connected to these quantities.

5.3 First start

This section describes the procedure for powering-on the machine the first time.

For simplicity's sake, the automatic control capacities of the exciters are temporarilydisabled.

Refer to chapter 5.4 that provides the instructions for turning on the PJ5KPS in thevarious cases.

5.3.1 Preliminary operation

Before activating this piece of equipment, the necessary connections must beperformed, and in particular:

� Power supply

� Modulating signals (Audio or MPX, RDS...)

� RF load (antenna feeder or dummy load)

About to the connections of the power supply and the modulating signals, pleaserefer to chapter 5.1.

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The machine's RF output is the "EIA 1 5/8" flanged type and is accessed on the roofof the PJ5KPS. If a dummy load capable of dissipating the RF power generated bythe transmitter is available, it is advisable to run the first tests by connecting to itrather than to the transmission antenna.

5.3.2 Power-on

When powering-on the transmitter the first time, perform the operations outlined inthe table below.

The "Result" column indicates the immediate results of the operations performedplus a few indications that confirm that the machine is working efficiently.

Should any inconsistencies occur as compared to these indications, interrupt theprocedure and identify the reason for the malfunction before resuming the procedure.

Operation ResultClose the "Transformer Breaker" isolating switches

The power supply unit carriages are poweredTurn the "Mains" switch The whole transmitter is powered. The machine is activated in the same

status it was in when it was turned off the last timePress the OFF key of the control unit

RF emission by the transmitter is inhibited; the exciters are off; the RFamplifier modules are off

Press the EXCITER CHANGEOVER key of the control unitThe automatic management for the exciters changeover is disabled. TheMANUAL LED must be on (otherwise press the key again)

Press the STDBY key of the control unitThe exciters are turned on in interlock status. The RF amplifyingmodules stay disabled. Being in manual modality, the exciters could beunlocked to verify the operation (see 5.3.3).

Set the parameters of the control unitThis procedure is described in chapter 5.3.3 on in this manual. Thecontrol unit communicates the nominal power and reduced power valuesto the RF modules. It also handles the coaxial relays so that the on airexciter is the desired one and sets the exciter to ON mode

Set the exciters Adhere to the instructions of the exciters used for setting the requiredwork frequency on the exciters. Regulate the output power of theexciters to 20 W.

Press POWER LOWER and ONThe current exciter is activated (the interlock is released from theexciter) and its power emission is enabled. The power emitted by thePJ5KPS amplifier increases gradually until it attains the level that hadbeen set previously as "Reduced power". Check the emitted power levelby means of the analog instrument with the selector switched to FWDPWR position

Press NOMINAL POWERPower supplied by PJ5KPS increases and attains the set nominalvalue. Check it on the analog instrument.

When the transmitter is on and works at its nominal power, the whole series of"accessory" checks and settings deemed necessary may be carried out beforestarting up the apparatus.

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5.3.3 Control unit settings

The settings of the control unit that are required for starting up the machine, mentionedin the powering-on procedure, are the following:

1. Setting of the power levels

2. Setting of the on air exciter

Before performing the first operation, click the ESC button. The display shows thescreenful for selecting the menus [Figure 5-7]. Click the arrow keys until the cursorhighlights the line associated with the Setting menu. Click OK: the software will showthe associated screenful on the display [Figure 5-8].

On having accessed the Settings menu, use the arrow keys to select the nominalpower line (Pwr. Out) and click OK. Use the arrow keys to decrease or increase theindicated percentage value up to the required level. Click OK again to set this value.Repeat the operation for the line associated with the reduced power level (Pwr. Lower).

NBThe new power level is transmitted to the combiner module and then stored inEEPROM only when the ESC button is clicked.

When inside this menu, it is advisable to check the date and time lines and updatethem if necessary. Note: the date and time are used only for marking the events in thealarms register.

NB The date and time do not need to be updated in the transmitter in order for it to workefficiently.

On having completed these settings, click ESC to return to the selection screenful.

In order to set the on air exciter, select the Exciters menu [Figure 5-9]. Take intoconsideration the On Air Exciter line: the number to the right indicates the exciterbeing used. To change it simply highlight the line and click OK.

Figure 5-8 Menù settings

PJ5KPS


The exchange of the exciters is assisted from the software, that is when thecommutation is carried out , the interlock comes systematized in the correct wayindependently from like they were. The interlock could be modified also manually incase of necessity.

5.4 Management of the exciters

The control unit can perform the automatic changeover between exciters if onemalfunctions. The Manual LED on the panel indicates, when it is lighted up, that theautomatic changeover function is disabled. In order to enable it, click the EXCITERCHANGEOVER button and check that the LED turns off. In funzione dello statodell�automatismo del PJ5KPS, il comportamento della macchina sarà diverso. Inquesto capitolo sono descritti i diversi casi.

In function of the state of the PJ5KPS automatism, the behavior of the machine willbe various. In this chapter are described the different cases.

5.4.1 Start-up from power-on with exciters in manual mode

When powering on the machine with the exciters in manual mode, the apparatusdoes not perform any check, both mute RF signals are active and the changeoverrelay remains in standby status. Use the exciters menu to activate an exciter.

NB This is why, if the transmitter is left in manual mode, any momentary power failure willcause the transmitter to be inactive when turned on again. Therefore it is advisableto leave the PJ5KPS in automatic mode when you are not performing maintenanceoperations.

5.4.2 From OFF to ON with exciters in manual

When switching from OFF (or STDBY) to ON with the exciters in manual mode, theapparatus does not perform any check and the exciter that is currently set to on air isthe one that is aired.

Figure 5-9 Exciters Menu

PJ5KPS


If the mains signal is not OK, the exciters turn off automatically.

If the maximum drive power is exceeded during operations (> 35W), the PJ5KPS isset to fault status and power supply is cut to the exciters.A message in the alarmsmenu signals this fault.

When the apparatus is set to STDBY, the mute RF signals of the exciters are notactivated and may be modified by the operator.

When the apparatus is set to EXT INT or AUX INT, the mute RF signals of the excitersare not activated and may be modified by the operator.

5.4.3 Automatic changeover

When the PJ5KPS is in the exciter automatic changeover mode, the power emittedby the on air exciter is checked constantly. If at any time the on air exciter is no longergood (i.e. power drops to below the preset level), the apparatus is kept operationalwhereas the exciter connected to the internal Dummy Load turns on. If the latter oneis good (i.e. it is capable of supplying the required power), then the two exciters arechanged over. Instead if the alternative exciter is not good, no changeover takesplace, the control unit commands the mute RF of the exciter to Dummy Load, it waits120 s. and repeats the attempt. This procedure is repeated indefinitely until one ofthe two exciters is considered to be good.

During the whole length of time during which there is no good exciter, the PJ5KPSkeeps the WAIT LED on for signaling this status.

Each exciter is fitted with its own mute RF. On being commanded, the piloting signalmust return to zero within 3 seconds at the most. If this does not occur, the fault isrecorded by an error message that is entered in the alarms menu.

If the mains signal is not OK, the exciters turn off automatically. If the piloting powerexceeds the limit during operations, the PJ5KPS is set to the FAULT status and thepower supply of the exciters is turned off. A message in the alarms menu signals thefault. Keep in mind that the operator's intervention is required to exit from the FAULTstatus.

If the MAINS signal coming from the bus is not OK, the exciters are all turned off. Assoon as the MAINS signal is regular again, the evaluation cycle of the exciters begins(see 5.4.4).

When the apparatus is set to STDBY, the mute RF signals of the exciters are activatedand as such both exciters are inhibited. If the ON key is pressed, the system re-evaluates both exciters in the same manner as in the procedure from OFF to ON(see 5.4.4).

PJ5KPS


When the apparatus is set to EXT INT or AUX INT, the mute RF signals of the excitersare activated and therefore both exciters are inhibited. When the external interlocksare released, the system re-evaluates both exciters as during the phase from OFF toON (see 5.4.4).

5.4.4 Phase from ON to OFF

When the apparatus is set to OFF status and you press the ON button, the powersupply of the exciters is activated and the logic starts to evaluate the exciters. Duringthe evaluation phase, the WAIT LED stays ON.

When the apparatus is turned OFF, it memorizes the exciter on air. Consequentlywhen the machine restarts it can attempt to restore the previous conditions. On themachine restarting, if the exciter that is to be aired does not attain the preset powerlevel whereas the spare one is operational, the apparatus performs the changeoverwhen the evaluation time (120 s.) expires.

On the machine restarting, if both exciters do not attain the preset power level, theapparatus airs the one that had been present when the machine was turned off, afterthe evaluation time has expired.

5.4.5 Start-up with exciters in automatic mode

The sequence run by the PJ5KPS, when the power supply is activated while it isalready in ON status and the exciters are in automatic mode, is identical to the onerun for switching from OFF to ON. The only difference is that a screenful displays thecountdown for determining the fault of the exciters. During this phase the manual/automatic button is inhibited and in order to set the exciters to manual mode youmust press the OFF button of the apparatus.

5.4.6 Audio alarm

The control unit of the PJ5KPS can manage a fault signal, for each exciter, whichnormally has an "Audio Alarm" meaning. The control software of the PJ5KPS doesnot intervene in triggering these signals since they must be checked by the exciters(or by any other connected devices).

The Audio Alarm signals are made up of two inputs for the logical signals on theparallel interface and on the "mute RF" command connector of the exciters.

The control unit manages these signals just like it manages the power good signals:

� Each "Audio alarm" signal is associated with its own exciter

� If the audio signal, associated with the exciter that is currently on air, enters analarm status, the PJ5KPS waits for the time configured in the exciter menu beforeit attempts the restoring operation

PJ5KPS


� If the audio of the aired exciter is still in alarm status on the elapsing of the aforesaidtime interval, the control unit checks if the audio of the exciter on the dummy loadis regular. In this case the changeover between the exciters is performed.

Observe the following differences as compared to the case in which power is missing:

� The management of the "Audio alarm" signals is not active during the start-upphase and during the switching phase from OFF to ON, but only when the excitersare working in automatic.

� In the standard configuration, the aforesaid sequence continues until the audiosignal associated with one of the exciters becomes regular again. In the "N+1"configuration, the switching attempt is performed only twice, after which thePJ5KPS enters the fault status.

� An Audio Alarm output is provided on the parallel interface: this signal is activated(with no delays) when the audio of the exciter that is currently on air is in alarmstatus.

5.5 Protection and alarms

The PJ5KPS contains a complete protection and alarms system, both at the individ-ual modules level and at the control unit level.

The modules are fitted with a micro-processor-based system that manages anymalfunctions locally. The associated information is communicated to the control unitfor displaying and storing the events and for the centralized management of the eventsthat require it.

Certain LEDs of the PJ5KPS panel are dedicated to the management of the alarms:

LED DescriptionWARNING This LED indicates a warning (something is not correctly working, but

the amplifier is still working)FAULT This LED indicates a fault (the amplifier is shut off, the operator�s

intervention is required)WAIT This LED indicates the wait status (the amplifier is temporarily off, it will

be restarted as soon as the reason that keeps it from working will beremoved, or after a fixed amount of time depending on the reason of theintervention of the protection system)

The ALARM RESET button is used for resetting the alarms and restarting the machine.

A complete description of the alarms and protection system is given in chapter 7.5.

PJ5KPS


6. Troubleshooting[This chapter will be filled in the next edition of the present manual]

PJ5KPS


7. Technical description

7.1 Software - Reference guide

This chapter gives a point to point description of the screens composing the softwareof the PJ5KPS.

NB Since the management software is able to control up to 10 modules, some of themenus configurate themselves for the number of modules. For example, in a PJ10KPSthe menu Overall Status has ten �RF Unit� lines as in the general example reported inthe manual, in the PJ5KPS only five of them will be shown.

7.1.1 Overall Status menu

This is the default menu appearing when the user switches the unit on.

This menu includes only indications, therefore the user cannot insert any input in itsdifferent lines.

Menu Line DescriptionTimer Indication of the start and stop times of the automatic power reduction

feature - see �Settings� menuControl Unit Status of the control unit (Off or On) and indication of the exciter

actually connected to the amplifier (Exct.1 or Exct.2)Power Supply Status of the power-supply cart (Off or On)R.F. Combiner Status of the RF combiner (Off or On)R.F. Unit - N Status of the Rf power amplifier number N (Off or On)Hours Timer counting the hours of operation of the transmitter. For example,

this indication is useful in order to define when a maintenance operationcan be made

From the predefined menu, by pressing the Esc key as indicated on the last line, youcan shift to the exchange screen from which you can have access to all the othermenus of the unit.

Figure 7-1 Overall Status menu

PJ5KPS


7.1.2 Select menu

This is the exchange menu from which you can select the different sub-menus thatcompose the software.

In order to enter a sub-menu, select the correspondent line with the arrow buttonsand press Enter.

Menu Line DescriptionGeneral Status General status of the PJ5KPSPower Supply Status of the power-supply cartR.F. Combiner Status of the RF combinerR.F. Units Status of the RF power amplifiersAlarms Summary of the occured alarmsService Service menu for the switching on/off of the modulesSettings Setting of the parameters (i.e. Power levels)Exciters Parameters of the exciters (i.e. output power, on air exciter)Info Information concerning the configuration of the PJ5KPSRelease Information concerning the hardware and software versions of the

modules composing the unitModem Settings related to the optional telemetry system (see chap.9)

To return to the predefined menu, select General Status and press OK.

Figure 7-2 Select menu

PJ5KPS


7.1.3 Control Unit menu

Informative menu on the inputs and the outputs of the control unit of the machine.

Linea menù DescrizioneExt Intl Input status �external interlock� (JP4/4 parallel interface)Aux Intl Input status �auxiliary interlock� (JP4/5)Exc1 A.Audio Input status �audio alarm exciter 1� (JP4/8)Exc2 A.Audio Input status �audio alarm exciter 2� (JP4/9)Reserve 1 Input status �Reserve 1� (JP8/2 parallel interface)Reserve 2 Input status �Reserve 2� (JP8/3)Reserve 3 Input status �Reserve 3� (JP8/4)Reserve 4 Input status �Reserve 4� (JP8/5)Relay Exc Exciters exchange relay status (Off = exciter 1 on air)Exc 1 Mute Exciter 1 interlock status (Off = RF power enabled)Exc 2 Mute Exciter 2 interlock status (Off = RF power enabled)Audio Alarm Output Audio Alarm status (JP47/1)Exc�s Mains Exciters power supply status (On = power supply enabled)Stand_by (In) �Stand by� input line statusStand_by (Out) �Stand by� output line status from the control unitTotal Eff Total efficiency of the machine

Figure 7-3 Control Unit menu

PJ5KPS


7.1.4 Power Supply menu

Information menu showing the status of the Power Supply / Rectifier carriage.

Linea menù DescrizioneBus Bar Output voltage from the rectifier on the common 80V dc supply bus.Room T. Temperature of the air at the input of the unitSafety Status of the safety arrest button. On indicates the functioning is

enabled, Off means the unit was arrested through the buttonMains Status of the main voltage supply. On indicates that the voltage is within

the functioning range of the unit and that the phase sequence is correctTrafo-1T Status of the AC fuses AC low voltage bus bar rectifier and interblock of

module 1Fuse-1 Status of the AC fuses AC low voltage bus bar rectifier and interblock of

module 1Trafo2-2T Stesso significato di Trafo-1T. Quando il carrello alimentatore/

rettificatore 2 non è installato, viene indicato ===.Fuse-2 Same function as Temp.1. When the supply/rectifier module 2 is not

installed, === is indicatedC.B. Blower Status of the magnetothermical "motor save" interruptor of the circuit

breaker blower.Supply-1 Control contactor of module 1Supply-2 Control contactor of module 2Blower Control contactor of the power of the blower

Figure 7-4 Power Supply menu

PJ5KPS


7.1.5 R.F. Combiner menu

This menu contains the information related to the RF part of the complete transmitter.Here the user will find the most interesting parameters, like the overall emitted RFpower and the reflected power.

Menu Line DescriptionFwd Overall emitted RF power of the transmitterRfl Reflected RF power of the transmitterUnbal Unbalancement RF power: sum of the power dissipated on the internal

resistors due to unbalanecement in the RF modulesRej.lT Temperature of the load resistors dissipating the unbalancement powerExhaust Temperature of the exhaust air (top of the transmitter)S.W.R. Standing Wave Ratio, calculated by the Control Unit on the basis of the

measured forward and reflected power(External) Fwd Forward power of an external transmitter (when configured for this

function)(External) Rfl Reflected power of an external transmitter (when configured for this

function)(External) Unbal Unbalancement power of an external transmitter (when configured for

this function)Main Exc Output power of the exciter currently on air (the one connected to the

input of the RF modules)Stdby Exc Output power of the exciter currently on the internal dummy loadTemp Status of the temperature alarm (sensor included in the combiner)RF-Enb RF output enable: �On� means that the RF combiner unit is giving its

permission for the regular operation of the transmitterAux Fan Switch for an auxiliary fan (not used in the current configurations)SET1 Status of the output �SET1�. See the Settings MenuSET2 Status of the output �SET2�SET3 Status of the output �SET3�SET4 Status of the output �SET4�

Figure 7-5 R.F. Combiner menu

PJ5KPS


7.1.6 R.F. Units menu

Information menu showing the status of the RF power amplifier modules. It is composedof 5 screens, one for each module, that can be scrolled using the arrow buttons.

Menu Line DescriptionFwd Measurement of the forward power of the amplifier moduleRfl Measurement of the forward power of the amplifier moduleInput Measurement of the driving power at the input of the amplifier moduleV.P.A. Measurement supply voltage of the module (generated from the

switching power supply included in each module)Driver Measurement of the current absorbed by the preamplifier stageMOS N Measurement of the current absorbed by the MOS N amplifier module

(each RF module contains 4 MOS modules)I. Tot Measurement of the total current absorbed by the RF moduleEff Efficiency of the amplifier module, as a result of the ratio between the

electrical power absorbed and the RF output powerTemp Temperature alarm, Ok or KoFuse Status of the fuse of the RF module: Ok or KoUnit. Intl State of the RF module interlock micro-switchRF enb. Enabled of power distribution from part of the module

Figure 7-6 R.F. Units menu

PJ5KPS


7.1.7 Alarms menu

This screen describes all the registered events which are relevant to determine theprobable causes of any disfunction. The screen is composed of a variable number ofpages (up to 10) in function of the number of events occured. The last events inchronological order are shown in the first page and so on. To shift to the differentpages, use the arrow buttons.

Menu Column DescriptionUnit Module of the system which generated the failureErr Type of failure and description. The type of failure can be W (Wait) - the

unit goes in stand-by until the cause of the failure is removed, R (Retry)- the unit is locked for a predefined time lag after which a reset attemptis launched, or F (Fault) - the unit is completely locked and requires theintervention of the user in order to remove the cause of the failure.

Time Time (hrs and minutes) at which the failure occuredDate Date at which the failure occured

Figure 7-7 Alarms menu

PJ5KPS


7.1.8 Service menu

This menu is normally used during the maintenance operations. When this screen isvisualized, the Control Unit checks the status of the modules of the unit more frequentlyin order to have a visualization of the different parameters as fast as possible. Whenthis menu is entered, all the secondary functions are interrupted, therefore a possiblealarm may not be visualized and registered immediately; when exiting this menu allthe alarms which were temporarily put in "stand-by" are registered. If the user setssome modules in OFF modality, these will be automatically reactivated when exitingthe menu. This menu is deactivated after 60 minutes if no key is selected.

Menu Line DescriptionFwd Forward power globally emitted by the amplifierUnb Unbalancing power dissipated in the combiner module.RF UnitN - On Fields used to switch ON and OFF the amplifier modules. Before the

removal of an amplifier module for its replacement or maintenanceswitch it off with the help of the corresponding line.

Fwd Forward power generated by the RF moduleRfl Reflect power from the RF module

Figure 7-8 Service menu

PJ5KPS


7.1.9 Settings menu

This menu is used for the settings of the unit. It is therefore the menu which is usedmore often apart from the possible maintenance operations.

Menu Line DescriptionPwr. Out Setting of the level of nominal power, expressed as a percentage of the

maximum power level. This is the level that the PJ5KPS must reachwhen the Power Nominal button is pressed, except in case ofdisfunction.

Pwr. Lower Setting of the reduced power level, expressed as a percentage of themaximum power level. This is the level that the PJ5KPS must reachwhen the Power Lower button is pressed, except in case of disfunction.

SET1 Level (Limit) at which the "Power Good" SET1 is launched. This level isexpressed as a percentage of the full-scale to which SET1 isconnected, indicated in the column Assign

SET2 See SET1SET3 See SET1SET4 See SET1Exct. Wait time Delay before assuming the on air exciter is faultyTalk Address Address of the unit in the RS485 networkClock Visualization and setting of the internal clock of the unitCalendar Visualization and setting of the internal calendar of the unitL.P. Timer Setting of the automatic power reduction feature: this can be �Auto�

(enabled) or �Manual� (disabled).The feature consists in reducing the power to the low power level andthen returning to the nominal power at fixed times. The start and stoptimes are set in this menu selecting �Auto�.

Write Config Button for the registration of the configurations in each module of theunit

Figure 7-9 Settings menu

PJ5KPS


7.1.10 Exciters menu

This menu is used to configure the settings of the exciters.

Menu Line DescriptionMain Exc Output power of the exciter currently on airStdby Pwr Ouput power of the exciter currently on the internal dummy loadOn Air Exciter Visualization of the "on air" exciter. When positioning the cursor on this

line, with the arrow buttons and by pressing Enter, it is possible tooperate the switching between the on air exciter and the exciter ondummy load.

Exct.1 Status of the exciter 1. By positioning the cursor on this line with thearrow buttons and by pressing Enter it is possible to switch on and offthe exciter.

Exct.2 Same as Exct.1 for the second exciter

Figure 7-10 Exciters menu

PJ5KPS


Figure 7-11 Info Menu

7.1.11 Info menu

This screen informs the user about the configuration of the transmitter.

Linea menù Descrizione

Menu Line DescriptionType Configuration type (model of the transmitter)Talk Addr. Address of the RS485 port of the transmitterBaud Rate Baud rate of the serial portPower Supply Number of the transformer/rectifier carriages in the transmitter: this can

be �Single� or �Dual�Exciter Number of the exciters in the transmitter: this can be �Single� or �Dual�External Checking of the external Fwd, Rfl, Unbal values (Enabled or Disabled)Reset Safety Resetting of the machine after a trip caused by the safety button. It can

be �Automatic� or �Manual�Cfg. N+1 Configuration of the transmitter as a N+1 system

PJ5KPS


Figura 7-12 Release Menu

7.1.12 Release menu

This menu show the address, the kind of configuration, the software version and thehardware version of all the microprocessor boards of the transmitter.

7.1.13 Modem menu

This screen informs the user about the configuration of the optional telemetry (seechap.9).

Figura 7-13 Modem Menu

PJ5KPS


7.2 Parallel Interface

A parallel-type interface is mounted on the top of the PJ5KPS, in which the differentsignals are available through terminal blocks [Figure 7-13]. This interface is connectedto the Control Unit from which it receives the different signals and to which the eventualcomands are forwarded.

The card contains digital inputs, digital outputs and analog outputs. Among the digitalinputs, a "copy" of all the possible orders that can be given locally to the unit by usingthe buttons of the control unit are displayed.

The digital outputs supply information concerning the status of the PJ5KPS.

The analog outputs enable the remote control of the most important parameters, forexample the forward and reflected power.

This interface was designed for a maximum configurability and adaptability to thetelemetry systems to which it may be connected. For example, each digital input canbe configurated through a jumper in order to be �active� when grounded or whenconnected to a supply source between +12V and +24V. The scheme of one genericdigital input is shown in Figure 7-13 b). Please pay attention to the anti-parallele typeoptocouplers, so that if the jumper is closed between the pins 1 and 2, by groundingthe DIGITAL INPUT, the input is active. On the contrary by closing 2 and 3, the input isactive when the DIGITAL INPUT is connected to a positive voltage.

Each digital output can be configured individually as "Normally open " or "Normallyclosed " (NO or NC). In Figure 7-13 a) the scheme of a generic digital output isshown. Please note that when the jumper is closed between 1 and 2, the output isnormally short-circuited with the common pin, while in the other case the circuit isnormally open.

NB It is important to remember that the different commands can be given to the unitthrough the parallele interface only if the Local/Remote selector situated on the frontpannel is on the "Remote" position.

Figure 7-13 The parallel interface

PJ5KPS


The following table describes the function of each jumper of the parallel interface.The first column indicates the identifying number of the jumper as shown on Figure 7-14, the second indicates the name of the signal and the third column describes itsfunction.

Mors. Tipo Nome DescrizioneJP4/1 In ON Corresponds to the ON button of the control unitJP4/2 In STDBY Corresponds to the STDBY button of the control unitJP4/3 In OFF Corresponds to the OFF button of the control unitJP4/4 In EXT INH External inhibition jumper. It is a "N.C." type jumper, which means

that it must be active for the PJ5KPS to work.JP4/5 In AUX INH Auxiliary external inhibition jumper. It is a "N.O." type jumper, which

means that it must be not active for the PJ5KPS to work. It is"auxiliary" because even if nothing is connected to it the PJ5KPSworks normally.

JP4/6 In NOM PWR Corresponds to the NOMINAL POWER button of the control unit

DIGITAL INPUTC 44K7pF

12

R R 2 B

4 7 R

34

+12V

C 2

4K7pF

12

D L 2

D3-V

DIG_ IN

R R 6 B 1K5

34

JP1

J U M P E R 313

2O C 1

TLP620

1

2

4

3

+ 1 2 V C O M M O N

K 8

ZFH-12V

1311

9

46

81

16

JP29J U M P E R 3

13

2R R 9 A2 K 2

12

D I G I T A L O U T P U T

D L 2 4D3-V

D I G _ O U T _ O C

a)

b)

Figura 7-15 Digital I/O

JP4JP8JP48JP12JP35

JP47JP38

JP16

JP22

1 101 81 81 81 10

110 14

1

4

1

4

Figure 7-15 Parallel interface terminal blocks

PJ5KPS


JP4/7 In LOW PWR Corresponds to the REDUCED POWER button of the control unitJP4/8 In AUDIO ALARM EXC. 1

Audio alarm of exciter 1. This input, when active, indicates an alarmon exciter 1. If the PJ5KPS is in automatic changeover modality, ifthe exciter 1 is on air and if this signal remains active for a time lagequivalent to the time setted in the Settings menu at line Exc. Waittime, the changeover procedure between the exciters will be started.

JP4/9 In AUDIO ALARM EXC. 2Same as AUDIO ALARM EXC. 1 for exciter 2.

JP4/10 / GND Grounding contact.JP8/1 In ALARM RESET

Corresponds to the ALARM RESET button on the control unitJP8/2 In RESRV. 1 Reserve 1 input. When this input is active, the failure is registered by

the software in the Alarms menu. For example it can be connected toa switch that indicates that the door of the station is open or to asensor of a power reserve of an electric generator. In this way, byconsulting the menus of the unit, it is possible to trace the moment atwhich (time and date) the failure occured.

JP8/3 In RESRV. 2 Same as JP8/2JP8/4 In RESRV. 3 Same as JP8/2JP8/5 In RESRV. 4 Same as JP8/2JP8/6 In EXCITER CHANGEOVER CMD

This comand launches the changeover procedure between theexciters. It has the same function as when you press the OK buttonwhen selecting line On air exciter in the menu Exciters. In order tolaunch the changeover between the exciters through this comand, themanual changeover modality should be formerly selected through thecorrespondent button on the control unit or through the JP8/7 jumper,having however the unit in "Remote" modality.

JP8/7 In EXCITER CHANGEOVERCorresponds to ther EXCITER CHANGEOVER button of the controlunit

JP8/8 / GND GroundJP16/1 Out +12V dc Power source. A maximum of 100 mA can be absorbed between this

jumper and JP16/2. This power source can be used if the user wantsto enter the comands following a positive logic (high voltage - activecomand)

JP16/2 OUT +12V dc Same as JP16/1JP16/3 / GND GroundJP16/4 / GND GroundJP22/1 I/O TX/RX + Bus RS 485. Please note that this serial port is operational only when

the unit is in "Remote" modality.JP22/2 I/O TX/RX - Bus RS 485JP22/3 / LINE TRM Line termination for bus RS 485JP22/4 / LINE TRM Line termination for bus RS 485JP48/1 / GND GroundJP48/2 / GND GroundJP48/3 Out FWD PWR Forward power. Analogical output, 3.9V for 5000WJP48/4 Out RFL PWR Reflect power. Analogical output, 3.9V for 1200WJP48/5 Out OUT AIR TEMP

Temperature of the air at the output of the chimney. Analogical output,0V for -50°C, 3.9V for 100°C

JP48/6 Out V BUS Voltage at the output of the transformer/rectifier.Analogical output,3.9V for 80V, 0V for 0V.

JP48/7 Out EFF. General efficiency. Analogical output, 3.9V for 100%, 0V for 0%.JP48/8 Out OUT DAC 6 Reserved for future applications.JP12/1 Out CMN MUTE 1

Common contact MUTE 1 (see JP12/2).

PJ5KPS


JP12/2 Out MUTE 1 MUTE excitater 1. Digital output, active when exciter 1 is inhibited bythe control unit. Like all the digital outputs on the parallele interface, itcan be configurated through jumper as normally open or normallyclosed. This output has a common contact dedicated to this function(JP12/1).

JP12/3 Out CMN MUTE 2Common contact MUTE 2 (see JP12/4).

JP12/4 Out MUTE 2 MUTE exciter 2. Digital output, active when exciter 2 is inhibited bythe control unit. This output has a common contact dedicated to thisfunction (JP12/3).

JP12/5 Out CMN LOCALCommon contact LOCAL (see JP12/6).

JP12/6 Out LOCAL LOCAL/REMOTE status. Digital output, active when the PJ5KPS issetted in local modality. This output has a common contact dedicatedto this function (JP12/5).

JP12/7 Out CMN MAINSCommon contact MAINS (see JP12/8).

JP12/8 Out MAINSMAINS alarm, active when are present problems on the alimentation

JP47/1 Out AUDIO ALARM"AUDIO" alarm (see JP4/8 and JP4/9). This output is active when theon air exciter is in audio alarm status. This output has a commoncontact dedicated to this function (JP47/2).

JP47/2 Out CMN AUDIO ALARMCommon contact AUDIO ALARM (see JP47/1).

JP47/3 Out COMMON RL3Common contact shared from the outputs JP38/1-10.

JP47/4 Out COMMON RL3Parallel contact with JP47/3.

JP35/1 Out RESRV. 1 Reserve 1. Digitale output, active when the INPUT RESERVE 1 input(JP8/2) is active. The common contact of this output is RL4 (JP35/5)

JP35/2 Out RESRV. 2 Same as JP35/1, corresponds to INPUT RESERVE 2. The commoncontact of this output RL4 (JP35/5)



JP35/5 Out COMMON RL4Common contact shared between different digital outputs (JP35/1-4)

JP35/6 Out SET1 Digital output, active when the parameter SET1 is active (see menuSettings). The common contact of this output RL5 (JP35/10).

JP35/7 Out SET2 Same as JP36/6, corresponds to SET2. The common contact of thisoutput is RL5 (JP35/10).

JP35/8 Out SET3 Same as JP36/6, corresponds to SET3. The common contact of thisoutput is RL5 (JP35/10).

JP35/9 Out SET4 Similar to JP36/6, related to SET4. The common contact of thisoutput is the RL5 (JP35/10).

JP35/10 Out CMN RL5 Common contact shared between the different digital output (JP35/6-9)

JP38/1 Out EXC. ON AIRDigital output, active when the exciter 1 is on air, and not active whenthe exciter 2 is on air. common contact of this output is the RL3(JP47/3).

JP38/2 Out AUTO/MAN Digital output, active when the PJ5KPS is in changeover mode asregards the exciters . The common contact of this output is RL3(JP47/3).

JP38/3 Out LOWER POWERDigital output, active when the PJ5KPS is set for the lower powerlevel. Common contact of this output is the RL3 (JP47/3).

JP38/4 Out NOMINAL POWERDigital output, active when the PJ5KPS is set for the nominal power

PJ5KPS


level. common contact of this output is the RL3 (JP47/3).JP38/5 Out OFF Digital output, active when the PJ5KPS is set for the lower power

level. The common contact of this output is the RL3 (JP47/3).JP38/6 Out STDBY Digital output, active when the PJ5KPS is set for the lower power

level. The common contact of this output is the RL3 (JP47/3).JP38/7 Out ON Digital output, active when the PJ5KPS is set on ON mode . The

common contact of this output is the RL3 (JP47/3).JP38/8 Out FAULT Digital output, active when the PJ5KPS is set on FAULT mode . The

common contact of this output is the RL3 (JP47/3).JP38/9 Out WAIT Digital output, active when the PJ5KPS is set on WAIT mode. The

common contact of this output is the RL3 (JP47/3).JP38/10 Out WARNING Digital output, active when the PJ5KPS is set on WARNING mode .

The common contact of this output is the RL3 (JP47/3).

7.3 Power supply section

The power supply used by the PJ5KPS is AC threephase with neutral at 380 V. Thepower supply for the RF amplifier modules is DC 80 V, stabilized inside the modulesthemselves by a built-in switching power supply.

The power supply section of the PJ5KPS is composed of a threephase transformerand a rectifier circuit to feed the RF modules. Some features of the power supplysection are the following:

� PF > 0.94. This value of the power factor is got thanks to specific solutions, suchas power inductors use. The result is a wave shape of the absorbed currentparticularly cleaned and meeting the requirements of the most demanding users.

� Redundancy. Where an uninterrupted service is demanded, is possible to add asecond power supply chart. The functionning of the max power output is warrantiedby a power supply only, so the double power supply use allow to be used as backup in case of fault of one of them.

� Easy access. The power supply section is located on a chart with wheels for aneasy take out from the cabinet and easy transportation. When the configuration ofthe equipment is with double power supply chart is possible to stop (take out andservice) a section without turn off the equipment.

� The power supply section of the PJ5KPS is checked by a microprocessor cardincluded in the rack of the equipment . This card manages one or two more powersupply charts , the cooling blower and the several alarms systems such as theemergency "not aus" button.

7.3.1 Working Principles

The Power Supply is checked by a microprocessor unit completely indipendent inthe alarming functions and activity respect to the control unit. The interchanges signalsbetween the two units are present on a flat cable of 20 poles named �datacommunication and command bus�. The signals present on the bus that are relatedto the power supply section are: ON, Stby, Alarm, Tr+/Tr-.

PJ5KPS


Signal FunctionON When the control of the power supply section notices a +12V on this

signal, the start up cicled of the power supply carriages is activated.The cicle is divided in two phases: the first contactor enables the powertransformer through power resistors, so that the possible current peakat start-up is reduced; two seconds later, the second contactor isexcited, so that the transformer is directly fed. After an additional delayof a second, the first contactor is released.At this point, the start-up cicle is terminated and the STDBY line isreleased.

STDBY When this signal is at ground, the RF modules are forced on a RF mutemode. The power supply section maintain on a stand-by position thecontrol bus untill the start-up cicle is ended, or when the ON signal isnot present, or at the end in all the coditions that are controlled by thissection that can affect the safety of the equipment. When all thechecked conditions are satisfactory the signal is released.

Alarm When this signal is at ground the control unit checks all the devicespresent on the bus to register and and manage eventual alarms. Whena signal or an alarm that affect the power supply section is revealed,the processor that is used to control it orders to the line to go down soto communicate to the control unit the event.

Tr+/Tr- These signals are used for data communication. The levels meet RS485standard , the speed is 115 kb/s. Please note that an eventual failure onthese signals doesn't affect the complex functionning of the equipment.

Figure 7-16 Time chart of the carriages contactors

Bus Command Soft-Startcontactor

StartContactor

FanContactor

STDBYOutput

OFF 0 0 0 ActiveSTDBY 0 1 1 Not ActiveON 0 1 1 Not Active

Table 7-1 Time chart of the carriages contactors

PJ5KPS


In addition to the contactors that permit the soft-start function, this unit control thecooling blower function. This is switched on together with the On command, while,when the equipment is in OFF mode, the blower relay stops to be driven after about4 minutes. This laboursaving device is used to avoid that temperature peaks to bepresent at the internal of RF modules. This procedure of post-ventilation is used forall conditions of equipment stops, both in case of human will or in case of alarm .

Table 7.1 contains a schematic of the output of the power supply section. The graphicdisplay of the contactor status during the time is reported in the Picture 7-16.

7.3.2 Configurations

The power supply section of the PJ5KPS has the following configuration possibilities:

1 Equipment with single power supply carriage

2 Equipment with double power supply carriage

3 Equipment with automatic reset of the Safety function at the emergency buttonrelease

4 Equipment with reset of the Safety function to be done manually by pushing thebutton.

The standard configuration of the equipment includes the points 1 and 3.

7.3.3 Logic control Signals

The power supply section of the PJ5KPS constantly controls the logic signals thatcan be divided in general signals (related to the equipment in its complex) or carriagessignals (related to the single power supply carriages). The status of these signalscan be checked on the Power Supply Menu in the control unit.

When a fault is detected in one of the general signals, the PJ5KPS is blocked eithertemporarily blocked or until the intervention of the maintenance staff, depending onthe type of signal. The general signals with relative meaning and managing modeare the following:

Signal FunctionSafety This signal in alarm status when the emergency button is pushed. In

this case the feed line to the several contactors is immediatelysectioned, per cui si ha un arresto istantaneo di tutte le parti soggette apotenza; the exciters remain however operational.In the meantime a signal send a message to the control local unit of thecurrent conditions. To restore the funtionning of the equipment theemergency button has to be reload.; if the equipment is configurate inmode 3), the start-up cicle is activated after two seconds. If the powersupply is configurated in mode 4) it will be necessary to push theSAFETY RESET button to restart the equipment. The safety signal isnot memorized on the events menu.

PJ5KPS


Mains This signal is generated by an external device that control that thepower supply current meets the limits of the functionning and that theR,S,T direction of progression of the phases is correct. If the mains ison alarm status, The equipment stops working , including the feeding ofthe exciters. When the signal return , an automatic restart occurs. Allthe time that an alarm of this type is present , a relative message in themenu alarm of the control unit is memorized.

Air pressure A pressure sensor informs the local unit if the cooling air flow is notcorrect ; the intervention of the sensor stops the equipment temporarilywith the disconnection of the power supply contactors of the powertransformers . When the signal returns an automatic restart of thePJ5KPS takes place. An opportune message is memorized in theAlarm menu in the control unit of the unit all the times that this signalinterveens.

Blower Motor Protector The intervention of the ground protection of the motor protector put theequipment on Fault mode. This condition requires the presence of anoperator to restore the functionning of the equipment . In order toattempt to restart it's necessary to reload the motor protector and pushthe ALARMS RESET of the control unit . Each time that this signalinterveens an opportune message is memorized in the alarm menu ofthe control unit.

The �carriage signals� are related to the status of the single carriages. A possiblealarm status in one of these signals has a different effect on the transmitter dependingon the number of the included power supply carriages, single or dual. While in thefirst case the PJ5KPS is stopped in case of a fault, in the second case the sparecarriages is still able to supply all the required power; in this case the fault is signaledby the LED Warning on the front panel.

The meanings of the carriage signals are the following:

Signal FunctionFuse 1 This signal, meaning �Carriage 1 Fuse� signal is in fact composed of the

series of all the safety interlocks of the carriage. If this signal is in thealarm status, it will be necessary to determine which of the followingpossible reasons is causing it: AC power fuse, microswitch of the chartconnected. The magneto-thermic switch , command connector coils,control signals connector , threephase power connector.

Trafo 1 OH This signal, meaning "Overheating transformer 1" (Trafo 1 Over Heat), isconnected to the safety thermal switches. There are two differentsensors: one is on the transformer lamelIar plate, the other is on therectifier heat dissipator. The intervention of one of these two devicesstops temporarily the equipment on WAIT mode. When temperaturegoes below the threshold, the transmitter will automatically restart.The temperature of intervention is 90°C, and in case this alarm arises, itwill be recorded with a message in the alarm menu on the control unit.

Fuse 2 As Fuse 1, for carriage 2Trafo 2 OH As Trafo 1 OH, for carriage 2

If the signal Fuse X is on alarm, in order to restore the regular functionning of theequipment it is necessary to identify the cause of the fault. The following table resumesthe points to be verified in order to find the cause of malfunctionning :

PJ5KPS


Signal ConditionPower fuse Verify that the LED on the rectifier card is switched off

[Figure7-18]Chart microswitch Verify that the power supply carriage is perfectly attached to the

bottom and that pushes the microswitch [Figure 7-17 b)]Magneto-thermic chart Switch Verify that the switch is on position I [Figure 7-17 a)]Control signals connectors Verify that the plug is connected in the right way [Figure 7-18]Command coils connector Verify that the plug is connected in the right way [Figure 7-18]Three-phase power connector Verify that the plug is connected in the right way [Figure 7-17 a)]

Note that the handle on the left side of the connector has to bepulled toward the front of the transmitter to block the connector inits place.

7.3.4 Control card

The functions of this microprocessor card are the following :

� Protection of the power supply section

� Communication with the control unit

� Analog parameters measurement

The card is installed in the rack under the RF modules site, in a metallic box whereit's included the control card of RF combiner [Figure 7-18 a)]. This card needs twoanalogic tunings : air input temperature and Bus DC voltage (not stabilized). For thetuning use the Power Supply menu of the control unit and identify the appropriatetrimmers in Figure [7-18 b)].

All the input digital signals are of "PNP" type, the common power supply is 12Vdc;the line of 12 Vdc is protected against the ground short circuit through a self-restoringfuse (ptc). An possible short circuit on this supply will cause trip the machine. Eventualmessages of fault in corrispondence of a short circuit on this line won't be valid.

To restore the supply is necessary to remove the short circuit condition and switchOFF the equipment for about a minute in order to let the fuse self-restore.

7.3.5 Interface Board

The control card of the power supply is connected with the actuators through aninterface board [Figure 7-19].

All the output signals from the control card are interfaced through power relays andsignal relays. On the relay coils a signalling LED is present and indicates the commandstatus on the control unit: the LED turned ON indicates that the coil is excited. All thepower contacts are equipped with noise suppressing network.

The feeding of the relay is supplied from a line protected against the short circuitthrough self-reloading ground protections.

PJ5KPS


AC powerfuse

Bus-bar Vdc visualization Fuse

Control signalsconnector

Relays commandconnector

Fuse memoryreset button

Fuse interventionLED

Figura 7-18 Rectifiers board check points

a) b)

Figura 7-17 Carriages check points

PJ5KPS


The signals coming from the control card are of "NPN" type, actives when grounddirected. The function of the relay RL7 ("SAF" on the silk-screening) is to protect thepersonnel: it breaks the common power supply of the power contactors, That aresupplied only when all the safety micro-switches are closed.

To protect the card is selected a FS1 fuse of the type 30x38 of 10A.

The turn on of the DL8 led indicates the fault of the FS1 fuse. This interface is connectedto the local unit control through the CN18-CN1 connector.

Figura 7-19 Scheda di interfaccia relè

Temperaturaaria

TensioneBus bar

Input dacarrello 1

Input dacarrello 2

Output ainterfacca

relè

Inputgenerali

Bus comando ecomunicazione dati

a) b)

Figura 7-20 Scheda di controllo alimentatore

PJ5KPS


7.3.6 Replacing the carriage

The following procedure has to be followed when it's necessary to replace a powersupply carriage. Please note that if the transmitter is fitted with just one power supplycarriage, it will be necessary to switch it off to replace the carriage, while if it has twoof them it is possible to continue transmitting normally also during this operation.

1 Turn the power disconnecting switch on position 0(in the case of one power supplycarriage)

2 Turn the carriage switch on position Off

3 Disconnect the threephase supply connector from the carriage, the connector ofthe control signals and the one of the command contactors .

4 Remove the screws that hold the bottom bar of the rack

5 Remove the carriage from its site

6 Insert the new carriage

7 Reassemble the bar and fix it in place with the screws

8 Reconnect the three connectors

9 Turn again the power disconnecting switch on position I

10 Turn the power switch on position I (if it had been turn Off previously)

7.4 RF Modules amplifier

The PJ5KPS has five RF amplifier modules able to supply 1.2 kW each. The modulesare independent from each other, self-controlled and self-protected.

Each amplifier module includes a first stage with a variable gain , based on theMOSFET BLF175. The RF signal amplified by the driver is splitted in 4 by a Wilkinsonsplitter, then sent to 4 identical modules based on BLF278, combined again andfiltered by a band-pass filter.

RF in

80 Vdc

Splitter Coupler

Powersupply

RF Out

RS485

Phase Adj.

φφ

μC+bias

Vpa

ManualPower adj.

Vgate

Figure 7-21 Block diagram of a RF module

PJ5KPS


Each RF amplifier module is controlled by a microprocessor card, connected througha RS485 bus to the other microprocessor cards of the machine.

The switching power supply included in each amplifier module generates the feedingsupply of the active devices. The generated voltage is adjustable and commandedby a microprocessor card included in the module. The card adjusts the supply andthe polarization current (gate) of the modules, thus controlling the emitted power.

On each module there is a trimmer for the manual adjustment of the power. Thetrimmer acts as a limiter. This means that if the automatic adjustment of the powersets a nominal output value, the trimmer can only reduce it, and not increase it.

7.5 Alarms

The menu Alarms of the control unit reports all the events connected to possiblemalfunctionning of the equipment or due to external causes.

Each registration contains the reference to the concerned module, the kind of eventand its date and hour.

The module that detected the event is indicated by one of the following acronyms:� C.U. Control Unit� P.S. Power Supply� R.F.X Amplifier module X (from 1 to 5)� R.F.C Combiner/Splitter

The type of event allows to identify the origin and the consequence of the fault. Thefirst letter of the type of event (eg F-C.B. Blw) can be one of the following :

E "Error", event that doesn't cause the interruption of the supply of power,but can reduce the functions of the equipment (e.g cannot be done thechangeover function of the exciters)

F "Fault", event that causes the block of the equipment and requires theintervention of an operator for the restart.

W "Wait", event that causes the temporary block of the piece of equipmentequipment, that will be removed as soon as the problem is solved.

R "Retry", event that causes a temporary block of the piece of equipment,that will effect a restart attempt after a fixed lapse of time.

The possible type of events are listed in Table 7-2

PJ5KPS


Code MeaningControl UnitE.Intl The external interlock is activeA.Intl The auxiliary interlock is activeAudio-1 The Audio alarm of exciter 1 is activeAudio-2 The Audio alarm of exciter 2 is activeRis-1 The RESERVE 1 input is activeRis-2 The RESERVE 2 input is activeRis-3 The RESERVE 3 input is activeRis-4 The RESERVE 3 input is activeMute Flt "Mute fault�: the mute commands (i.e. the interlock commands for the

exciters) are not working, they are not connected or the connection iswrong

Xchg Exc A changeover of the exciters has been performedCfg. N+1 The machine is in Fault status because two changeover attempts have

been performed (N+1 configuration)Power SupplyT1 - The power supply carriage 1 is overheatedF1 - One of the fuses or of the interlocks of the power supply carriage 1 is

blown or not closedTmp. The air inlet temperature is too highW-T2 The power supply carriage 2 is overheatedT1 W-T2 The power supply carriage 1 and 2 are overheatedF1 W-T2 One of the fuses or interlocks of carriage 1 is blown or not closed, the

power supply carriage 2 is overheatedPrs The air pressure generated by the blower is not sufficientF-F2 One of the fuses or of the interlocks of the power supply carriage 2 is

blown or not closedT1 F-F2 One of the fuses or interlocks of carriage 2 is blown or not closed, the

power supply carriage 1 is overheatedF1 F-F2 One of the fuses or of the interlocks of both the power supply carriages

1 and 2 are blown or not closedMains The AC power supply is out of its voltage range, or the phase sequence

is not correctC.B. Blw The circuit breaker of the blower blocked itFuse One of the fuses or of the interlocks of the power supply is blown or

openO.Tmp. The power supply is overheatedCombiner .Fwd Forward power above its limitRfl Reflected power above its limitO.dvr In Overdrive (main exciter)O.dvr Ld Too much power dissipated on the internal dummy load (stand by

exciter)Unbal Unbalancement power above its limitRej.l.T. Overheating of the unbalancement (rejection) load resistorsExhaust Exhaust overheatingSWR SWR above its limitO.Tmp. Internal overheatingR.F. UnitsFwd Forward power above its limitRfl Reflected power above its limitIn Input power above its limitTmp. Overheat of the RF moduleDrv. I Driver current above its limitMos 1 I Current of the MOS module 1Mos 2 I Current of the MOS module 2Mos 3 I Current of the MOS module 3Mos 4 I Current of the MOS module 4Eff. Efficiency too lowFuse Module�s fuse brokenO.Tmp. Overheating ov the module�s heatsink

PJ5KPS


7.6 Combiner and divider

7.6.1 Control Unit

The RF combiner section too is equipped with it own microprocessor control unit.This is very important for the functionning of the whole transmitter because it checksthe foldback line of the several RF modules. The value of the output power is manageddirectly by this micro controller. In case of fault of this control unit or if a problemarises in the communication bus, the transmitter will continue working at the samepower level set in the field "nominal power" of the control unit.

To this unit is assigned the task to limitate and stabilize the output power. When oneof the parameters reaches its safety limit for the right functionning of the machine, thepower level decreases progressively. The feedback is completely of analogic type,made through a voltage present on the control bus. The voltage is between themaximum of 3.9 V (this indicates that the transmitter is supplying the maximum power)and 0 V (minimum power).

This section also controls the maximum permitted power level of the exciters, with aprogrammed alarm of �Fault� type. If this level is exceeded the transmitter turns itselfOFF and the AC supply of the exciters is cut until the operator pushes the AlarmsReset button.

PJ5KPS


8. Technical NotesThis chapter contains the references to the technical appearances that more frequentlycould be necessary for intervene on the PJ5KPS.

8.1 Microcontrol board Trimmers

In the PJ5KPS are present microcontrol boards, one for each 1.2 kW module, onefor the control of the power supply and one for the control of the combiner. The boardsare identical, but in each the trimmers have diverged meaning. In figure 8.1, "RFM"refers to the RF module, "PS" to the power suplly and "CMB" to the combiner. TR12is set so that VREF is 3.3 V.

Figure 8-1 Microcontrol board Trimmers

PJ5KPS


8.2 Phase Adhutment of RF modules

Each PJ5KPS RF module have a dip-switch (accessible on the frontal panel) for theregulation of the phase of the RF signal generated. The phase of each RF modulecould be modified independently to steps of 1.6° from- 12.8° to +11,2° (Figure 8.2).

Normally, the modules comes furnished with the phase regulated for 0°, that it is theoptimal position for the correct operation of the machine on all the frequency band. Insome cases could result useful use the regulations of phase for minimize theunbalanced power dissipated. To this purpose, it preferable of use the SERVICEmenu, in which this value comes adjourned in real time.

8.3 Splitter board trimmers

On the entry splitter board are present two trimmers for the regulation of the measureof the emitted power from the two exciters.

These measures are those visible in the EXCITERS menu.

12

34

ON

-12.8°

12

34

ON

-11.2°

12

34

ON

-9.6°

12

34

ON

-8.0°

12

34

ON

-6.4°

12

34

ON

-4.8°

12

34

ON

-3.2°

12

34

ON

-1.6°

12

34

ON

0.0°1

23

4O

N

+1.6°

12

34

ON

+3.2°

12

34

ON

+4.8°

12

34

ON

+6.4°

12

34

ON

+8.0°1

23

4O

N

+9.6°

12

34

ON

+11.2°

Figure 8-2 1.2kW modules regulation phase

Load On Air

Figure 8-3 Trimmers for the read power of exciters

PJ5KPS


On the circuits of power measure of the exciters there are two compensators tomaximize the directive and minimize the operation error measure of the frequencyof operation.

8.4 Parallel Interface

The parallel interface present on the roof of the PJ5KPS is described into the X.Xchapter. In following a small description reassumed the functions assigns to the clamps.

Load On Air

Figura 8-4 Direttività testine di misura splitter

JP4JP8JP48JP12JP35

JP47JP38

JP16

JP22

1 101 81 81 81 10

110 14

1

4

1

4

Figure 8-5 Parallel interface clamps

PJ5KPS


1 In ON 1 Out COMMON MUTE 12 In STDBY 2 Out MUTE 13 In OFF 3 Out COMMON MUTE 24 In EXT INH 4 Out MUTE 25 In AUX INH 5 Out COMMON LOCAL6 In NOM PWR 6 Out LOCAL7 In LOW PWR 7 Out COMMON MAINS8 In AUDIO ALARM EXC. 1

JP12

8 Out MAINS9 In AUDIO ALARM EXC. 2 1 Out AUDIO ALARM

JP4

10 / GND 2 Out COMMON AUDIO ALARM1 In ALARM RESET 3 Out COMMON RL32 In RESRV. 1

JP47

4 Out COMMON RL33 In RESRV. 2 1 Out RESRV. 14 In RESRV. 3 2 Out RESRV. 25 In RESRV. 4 3 Out RESRV. 36 In EXCITER CHANGE CMD 4 Out RESRV. 47 In EXCITER CHANGEOVER 5 Out COMMON RL4

JP8

8 / GND 6 Out SET11 Out +12V dc 7 Out SET22 Out +12V dc 8 Out SET33 / GND 9 Out SET4

JP16

4 / GND

JP35

10 Out COMMON RL51 I/O TX/RX + 1 Out EXC. ON AIR2 I/O TX/RX - 2 Out AUTO/MAN3 / LINE TRM 3 Out LOWER POWER

JP22

4 / LINE TRM 4 Out NOMINAL POWER1 / GND 5 Out OFF2 / GND 6 Out STDBY3 Out FWD PWR 7 Out ON4 Out RFL PWR 8 Out FAULT5 Out OUT AIR TEMP 9 Out WAIT6 Out V BUS

JP38

10 Out WARNING7 Out EFF.

JP48

8 Out OUT DAC 6

Tabelle 8-1 Function of the parallel interface clamps

8.5 RF module I/O Interface

The control unit of the PJ5KPS communicates continually with all the microprocessorboards contained in the machine. All the boards are equal, but in function of theposition in which are installed they use configuration software and different address.For the boards that control the RF amplifiers modules, the addresses have mailedfrom the respective boards of I/O interface, installed to the inside of the rack. Thismeans that the modules are perfectly interchangeable, and they engage the addressto the action of the insert in the rack automatically.

Figura 8-6 Dip switch I/O interface board

PJ5KPS


8.6 Services supply

The services of PJ5KPS are supplied at 220V through a dedicated transformer.

Between the services, are included the microcontroller cards of RF modules, thoseof the combiner and power supply and the control unit.

Supplying the services of the PJ5KPS with an UPS (Uninterruptable Power Supply),the machine also in case of absence of mains power can be managed, naturallylimitedly to the functions available (for example configuration or interrogation of thealarms registry). The normal configuration of the machine previews that the servicesare directly supply through the connection to the electrical mains of the machine, inorder to insert an UPS is sufficient put it between the VDE on the roof, after haveremoved the bridge that comes supplied of series.

1ON

2

3

4

5

6

Module Address 8

1ON

2

3

4

5

6

Module Address 9

1ON

2

3

4

5

6

Module Address 10

1ON

2

3

4

5

6

Module Address 11

1ON

2

3

4

5

6

Module Address 12

1ON

2

3

4

5

6

Module Address 13

1ON

2

3

4

5

6

Module Address 14

1ON

2

3

4

5

6

Module Address 15

1ON

2

3

4

5

6

Module Address 16

1ON

2

3

4

5

6

Module Address 17

Figura 8-7 Addresses regulation of RF modules

The address assigned to the module is mailed by a dip-switch on the interface board.In figure 8-7 are brought back the configurations assigned to the different settings.The RF module 1 (that more to left looking at the machine) have address 8, the 2 hasaddress 9 and so on until at 17. The other addresses are reserved for future uses.

PJ5KPS


Figure 8-8 Services supply

8.7 Emergency CCU Board

In the case the control unit presents a damage, it is possible assure the correctoperation replacing, temporarily, the control panel with the card furnished togetherwith the PJ5KPS.

To effect the substitution, execute the following instructions:

1) Switch-OFF the amplifier. Remove the screw on the left side of the LCD panel,open the panel and individualize the necessary connectors to the operation of theemergency card.

PJ5KPS


2) Disconnect all the cables connected to the unit control.

3) Unscrew the crews that fix the board to the rack and remove the panel from hisplace.

4) Connect the three connectors precedentely identified to the entries of the board,like represented in the photo.

PJ5KPS


5) Fix the board to the rack, in the same position in which previously had fixed thecentral panel of control. Do attention to fix the side of the card from which theinterrupter sticks out toward the outside of the amplier.

6) Switch-ON the apparatus with general switch and activate the operation of theboard putting the interrupter on the ON position. The switch has built in way to

PJ5KPS


avoid the accidental operating; throw the interrupter toward the outside, go on thedesired position and release the interrupter.

Now the emergency board is operative.

When be used the emergency board, the amplifier acts with the parameterspreviously adjusted (for example: the level of power). To modify the parameters isnecessary use the unit control.

PJ5KPS


8.8 PJ5KPS Ventilation

Each amplifier PJ5KPS has furnished of an innternal fan, of inputy and output of theair.

View of the chimney air inlet

View of the chimney air inlet

PJ5KPS


The current of output air is equal to 600 m3/ h.

The input hole of the air is situated on the back cover of the rack, but on demand ispossible have an ulterior chimney inlet air on the top cover of the rack.

Representation of the air inlet hole location and the additional

PJ5KPS


9. Digital Telemetry (TLC5KPS)

9.1 Foreword

R.V.R. Elettronica�s plug-in series transmitters, like TX5KPS, may be optionally fittedwith the TLC5KPS, a telemetry device that enables the user to remotely ceck all themachine�s working parameters and control some of them, and provides the transmitterwith the ability to trigger �alarms� when problems arise while the transmitter is on air,possibly sending GSM Short Messages (SMS) to the maintainer�s cellular phone orto any other number stored in the machine�s memory.

9.2 Installation

The TLC5KPS is installed in the rear part of the transmitter�s rack, near to the low-pass filter and the RF output connector.

9.2.1 Connection

The bottom side of the TLC5KPS contains the following connectors:

PJ5KPS


The upper side contains the following connectors:

The following connections should be performed on the bottom side:

� DB15 male, providing the power supply (18 V, 0, 18 V AC). The power supply isprovided through the terminal block of the parallel interface of the amplifier.

� DB9 RS485 coming from the parallel interface

PJ5KPS


� DB9 I2C connected to the exciters

� DB9 RS232 not connected

On the upper side:

� RS485 Connector with termination resistor. This connection is required, ormalfunctioning in the communications will likely happen! The connector containsa 330 OHm resistor between PINs 1 and 6.

PJ5KPS


� SMA connector for the GSM antenna. The GSM modem can be directly installedinside the TLC5KPS: in this way the machine will provide the named SMAconnector, the status LEDs of the modem and the slot for the GSM SIM card.

Please note that an external and possibly directive antenna for the GSM is alwayssuggested, to provide the GSM modem with a good signal and ensure reliable datacommunications.

Please note that to fully deploy the features of this telemetry system, the you will needto sign a contract with a GSM service provider including DATA COMMUNICATIONS.

9.2.2 Devices settings

The use of the telemetry system requires the correct setting of the addresse in theconnected pieces of equipment, since they communicate on a shared bus.

9.2.2.1 Exciters

Set the Uart address of exciter 1 to �1�, exciter 2 to �2�

To perform this setting, from the main menu click on �ADMIN�, then select Genst fromthe navigation bar, select �Uart Adr.� on the General Set menu and change it to �1� frothe exciter 1, �2� for the exciter 2.

9.2.2.2 Amplifier

Set the �Talk address� parameter to �3�.

To perform this setting, presss the button ESC on the Control Unit of the PJ5KPS.You will be presented with the �Menu Select� screenful. With the UP and DOWNbuttons, select the line �Settings� and press the OK button.

In this menu, select the line �Talk Address� and press OK. With the UP and DOWNbuttons change the parameter to �3� and press OK.

PJ5KPS


9.2.3 Installing and configuring the PC software

Setting up the telemetry is best performed directly connecting a personal computerto the TLC5KPS.

You will need:

� A PC running on Windows 98 or newer (the software has been tested with 98, NT,2000 and XP)

� The �Telecon 32bit� CD ROM, provided with the machine

� DB9 pin-to-pin cable long enough to link the PC to the TLC5KPS

Insert the CDROM in the PC, browse and executethe program setup_telecon.exe.Follow the instructions on screen to install the software on your PC.

Please note that if you already have an installed version of the Telecon32bit software,the new software will just upgrade it and will not affect you installed station database.

Launch the Telecon program: Start -> Programs -> Telecon 32bit

PJ5KPS


You will be presented with the database selection screen.On the Database combobox (the top line), selet the PLUGIN_AMP.MDB database.

Then select the station TX5KWPS 2PTX station and click on �Edit Phonebook�.

The screenful the software will show allows you to configure all the aspects of thetransmitter, like kind of modem, telephone number and so on.

Configure this screenful as shown in the following figure, that is select �Cable� andthe COM port you will use.

PJ5KPS


Click Return.

Connect the DB9 cable between the PC and the TLC5KPS telemetry unit.

Click on Start. The PC will perform the connection with the transmitter and then willshow the program screen and the �Detail screen� already opened.

The TLC5KPS automatically detects the type of connection, that is direct connection,GSM modem or PSTN modem.After 1-2 minutes, the Telecon software will have acquired all the data of the modules.

Note the smileys on the bottom blinking red and green to show ongoingcommunications.

PJ5KPS


Double-click on TLCKPS. Then select EEprom and click on it.

You will now see the EEprom organization window:

Click on READ EEPROM and then OK. Note blue progress bar indicating reading isin progress.

When the EEPROM reading will have been completed, the button WRITE EEPROMwill also be available.

PJ5KPS


Click on the tab �General� and do the following settings (for example):

Station ID ID for addressing pourpouse. Write if you only have 1Station Name Mnemonic name of the station, like place or frequencyDial Sring Normally, ATDTNumber of Retry Number of messages to send. We suggest to set this value to at least 2, in

case of problems with the SMS Service Center.

Then click on Telephone and fill it with the telephone numbers that will be known to thestation. Yes or No in the SMS column specifies whether the number will receive aSMS in case of alarms, while the column ACS determines the numbers entitled tosend commands via SMS to the station, avoiding interferences from unexperiencedoperators.

Finally, specify the kind of modem the station shall send the alarm to, so that it willdetermine whether to send a SMS or place a normal telephone call.

At this point, click on WRITE SETTINGS and then WRITE EEPROM: you will see theblue progress bar indicating the software is loading into the TLC5KPS.

PJ5KPS


The display of the control unit of the amplifier will show in the menu �MODEM� (firmwareversion 3.9 and up) the stored telephone numbers, the SMS service center number,the modem status and the kind of connection.

Wait about 2 or 3 minutes and check on the display or on the LED �MODEMPRESENT� on the top of the rack the correct update of the firmware configuration.

On the display you will read on the display the signal level and the status of the modem.Please note that it could be necessary to exit and reenter in the Modem menu (pushESC) to refresh it.

PJ5KPS


9.2.4 Alarms and commands

9.2.4.1 Alarms sent by the transmitter

1. Forward Power

2. Reflected Power

3. Unbalanced Pwr

4. No Audio PTX1

5. No Audio PTX2

6. Mains Fault

7. Over temp 1

8. Over temp 2

9. Fuse1 PS

10. Fuse2 PS

11. Blower Fault

12. Fault Mod 1

13. Fault Mod 2

14. Fault Mod 3

15. Fault Mod 4

16. Fault Mod 5

17. Fault Mod 6 (only 10Kw)





22. Pressure Fault

23. Mains OK

PJ5KPS


9.2.4.2 SMS commands available

The commands that can be sent to the transmitter using SMS messages are thefollowing:

The Alarms for the RF power falling under a certain level and for the reflected powerare connected to the Settings menu. Remember to adjust SET 1 SET2 and SET 3 inthis menu to suit your need.

When all of these parameters have beenfinally configured, put the selector on thecontrol panel of the control unit on the �Remote� position. The yellow �LOCAL� led willgo off and the green led will go on. We suggest at this point to do some tests to verifythe functionality of the system.

��

INFO

Station: ��ID: � �� FWD: �� RFL: ��UNBAL:�� TX On (�� TX Off �� TX StdBy)- Low Power / Nom Power Audio Present / Audio Absent Alarm Present / Alarm Absent

Information about the transmitter�s status

TXON Station: ��ID: � �� TX is On -

Switching on the transmitter

TXOFF Station: ��ID: � �� TX is Off

Switching off the transmitter

LOWPWR Station: ��ID: � �� LowPwr OK-

Low Power setting

NOMPWR Station: ��ID: � �� NomPwr OK-

Nominal Power setting

ALARM Station: ��ID: � �� Alarm: ��

List of the alarms in memory

RESET Station: ��ID: � �� ALARM RESET OK-

Resetting the alarms in memory

RESMOD -- nothing -- Reset of the telemetry and modem restart

PJ5KPS


9.3 Technical details

9.3.1 Modules mapping

9.3.1.1 Control Unit

Configuration data Block 0x00 0x01 0x02 0x03 0x04 0x05 0x06 0x07

ID RH RS In_Ana_Tot Out_Ana_Tot In_Dig_Tot Out_Dig_Tot Gen_Tot

Device ID Hardware Release Software Release Analog input number = 2 Analog output number = 5 Digital input number = 32 Digital output number = 32 General number = 3

Analog input data block 0x08 0x09

INANA0 INANA1

Input Power Load Power

Analog output data block 0x0A 0X0B 0x0C 0x0D 0x0E

OUTANA0 OUTANA1 OUTANA2 OUTANA3 OUTANA4

RF combiner output power RF combiner reflected power Air temperature Power supply voltage Efficiency

Digital input data block 0x0F

INDIG0-15 Bit0: Ext Interlock Bit1: Aux Interlock Bit2: StdBy-In Bit3: Service Request Bit4: Local / Remote Bit5: Manual / Auto exchange exciter Bit6: Low Power Bit7: Nominal Power Bit8: Fault Exc 1 Bit9: Fault Exc 2 Bit10: Manual Exchange

Digital output data block 0x11 0x12

OUTDIG0-15 OUTDIG0-15

Bit0: Fault Bit1: Wait Bit2: Warning Bit3: Audio Alarm Bit8: Ack On Bit9: Ack Std By Bit10: Ack Off Bit11: Ack Low Power Bit12: Ack Nominal Power Bit13: Ack Change Exciter Bit14: Ack Manual Excange Bit0: On/Off Bit1: Stand By Bit2: Backligth Bit3: Relays Exciter Bit4: Mute Exciter 1 Bit5: Mute Exciter 2 Bit6: On/Off Exciter Bit8: Ack Res1 Bit9: Ack Res2 Bit10: Ack Res3 Bit11: Ack Res4

PJ5KPS


9.3.1.2 Hybrid Coupler




Analog input data block 0x08 0x09 0x0A 0x0B 0x0C 0x0D 0x0E 0x0F 0x10 0x11

INANA0 INANA1 INANA2 INANA3 INANA4 INANA5 INANA6 INANA7 INANA8 INANA9

Forward Power Reflected Power Input Power Load Power K.D.I. Temperature Unbalanced Power Air Temperature External FWD Power External RFL Power External UNB Power

Analog output data block 0x12 0X13

OUTANA0 OUTANA1

Reserved. Reserved.

Digital input data block 0x14

INDIG0-15

Bit0: On/Off Bit1: Std By Bit8: Over Temp.

Digital output data block 0x15

OUTDIG0-15

Bit4: Std By Bit5: Sqr Bit8: Fan Bit12: Set1 Bit13: Set2 Bit14: Set3 Bit15: Set4

PJ5KPS


9.3.1.3 1.2 kW R.F. Unit




Analog input data block 0x08 0x09 0x0A 0x0B 0x0C 0x0D 0x0E 0x0F 0x10 0x11 0x12

INANA0 INANA1 INANA2 INANA3 INANA4 INANA5 INANA6 INANA7 INANA8 INANA9 INANA10

Forward Power Reflected Power Input Power Supply Voltage Bias Voltage Module Temperature Diriver Current Mosfet 1 Current Mosfet 2 Current Mosfet 3 Current Mosfet 4 Current

Analog output data block 0x13 OUTANA0 Foldback Digital input data block 0x14

INDIG0-15

Bit0: On/Off Bit3: Std-By-In Bit8: Over Temperature Bit11: State of Fuse

Digital output data block 0x15

OUTDIG0-15

Bit4: StandBy Bit5: Sqr Bit8: Led Red Bit9: Led Orange Bit10: Led Green

PJ5KPS


9.3.1.4 Power Supply




Analog input data block 0x08 0x09

INANA0 INANA1

Bus Volt Temperature

Analog output data block -- -- -- Digital input data block 0x0A

INDIG0-15

Bit0: On/Off Bit1: StdBy-In Bit3: Mains Fault Bit8: Over Temperature 1 Bit9: C.B. Bit10: Fuse 1 Bit11: Over Temperature 2 Bit12: Fuse 2 Bit13: Restart Safety Bit14: Pressure

Digital output data block 0x0B

OUTDIG0-15

Bit4: StandBy Bit5: Sqr Bit8: Soft Start 1 Bit9: On 1 Bit10: Soft Start 2 Bit11: On 2 Bit15: Blower

9.3.2 Timings

Main routine timing 1msModem detection cycle 34sModem init after restart 50sModem init when detected 50s.Maximum answer time after a command 5minMaximum complete measurement update 1,5sNo TX reply timeout on the RS485 3sbefore setting �local status�Display update time 1,5s

PJ5KPS


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1 / 2User & Technical ManualTechnical Appendix

Rev. 1.5 - 08/02/06

PJ5KPS

Appendix A Piani di montaggio, schemi elettrici, listecomponenti / Component layouts,schematics, bills of material

Questa parte del manuale contiene i dettagli tecnici riguardanti la costruzione dellesingole schede componenti del PJ5KPS. L�appendice è composta dalle seguentisezioni:

This part of the manual contains the technical details about the different boards ofthe PJ5KPS LCD. This appendix is composed of the following sections:

Descrizione Codice RVR Vers. Pagg.Modulo RF SL042RF1001 1.1 3 (A4)Accoppiatore direzionale modulo RF SLDCLPFPJ1KM 1.1 3 (A4)Misure splitter ingresso SLSPLMEA5KW1 1.0 3 (A4)Splitter modulo RF SLSPLRFPJ5KM 1.0 3 (A4)Scheda fusibili modulo RF SLFUSRFPJ5KM 1.0 3 (A4)Scheda misura sbilanciamento SLPWRSENHC52 1.0 3 (A4)Selettore misura analogica SLMETPJ5KM4 1.0 3 (A4)Interfaccia I/O modulo RF SLIORFPJ5KM2 1.1 3 (A4)Accoppiatore direzionale di uscita SL042MT1001 1.0 3 (A4)Interfaccia relè di potenza SLRLYCPROTVJ 1.0 3 (A4)Emergency CCU SLCCUEMPJ5K2 1.0 3 (A4)Schema del cablaggio / 1.1 1 (A3)Scheda microcontrollore SLCPUPJ5KM2 1.0 7 (A3)Adattatore CPU PS e combinatore SLADPPSPJ5KM2 1.0 4 (A3)Rettificatore trifase SLRCTPJ5KMC 1.1 3 (A3)Scheda CPU control unit SLCCUPJ5KM2 1.0 6 (A3)Scheda madre control unit SLCCU1PJ5KM2 1.0 3 (A3)Interfaccia parallela SLINTREMPJ5KM 1.0 4 (A3)Splitter/scambiatore ingresso SLSPLINPJ5KW1 1.0 3 (A3)Scheda CPU misura sbilanciamento SLADKDIPJ5K2 1.0 3 (A3)Adattatore CPU/bias modulo RF SLADBSPJ5KM2 1.1 5 (A3)Driver modulo RF SLDRVRFPJ5M 1.0 3 (A3)Alimentatore switching modulo RF PSSW5040 1.2 5 (A3)

2 / 2 Manuale d�uso e manutenzioneAppendice tecnica

Rev. 1.5 - 08/02/06

PJ5KPS

Pagina lasciata intenzionalmente in biancoThis page intentionally left blank

Appendix to the user manual© 2002 -2006 R.V.R. Elettronica SpA - All rights reserved

RF Amplifier module - SL042RF1001

PJ5KPS

1 / 3



PJ5KPS

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RF module directional coupler- SLDCLPFPJ1KM

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PJ5KPS

3 / 3

SLDCLPFPJ1KM Bill Of Materials Page 1

Item Q.ty Reference Part____________________________________________________________________________________________

1 1 C* *2 2 C5,C1 47p3 4 C2,C4,C6,C7 4n74 1 C3 470n5 2 D2,D1 BAT836 2 RV2,RV1 200R7 2 R3,R1 100k8 2 R2,R4 1k9 1 SW1 RCA RFL10 1 SW2 RCA DIR


Splitter measurement board - SLSPLMEA5KW1

PJ5KPS

1 / 3



PJ5KPS

2 / 3

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PJ5KPS

3 / 3

CSSPLMEA5KW1 Bill Of Materials Page1

Item Q.ty Reference Part_____________________________________________________________________________________________

1 2 CN2,CN1 DB9FSO2 2 C6,C1 100p3 2 C11,C2 1n4 12 C3,C4,C5,C8,C9,C12,C13, 4n7

C14,C15,C16,C17,C185 2 C7,C10 100uF_35V6 2 C19,C20 100n7 2 D1,D2 SM40048 5 FIX1,FIX2,FIX3,FIX4,FIX5 FIX359 4 PD1,PD2,PD3,PD4 PAD10 1 Q1 BC857BL11 2 RV2,RV1 50k_Trim12 3 R1,R10,R20 10k13 8 R2,R3,R8,R9,R11,R12,R15, 51R

R1614 4 R4,R5,R17,R18 100R15 2 R13,R6 1k16 3 R7,R14,R19 4k717 1 U1 TL074_SMD


RF module splitter - SLSPLRFPJ5KM

PJ5KPS

1 / 3



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PJ5KPS

3 / 3

CSSPLRFPJ5KM Bill Of Materials Page 1


1 2 C5,C1 10p_C2 2 C6,C2 3p3_C3 1 C3 4p7_HQ4 1 C4 10p_HQ5 5 PD1,PD2,PD3,PD4,PD5 PAD6 9 R1,R2,R3,R4,R5,R6,R7,R8, 330_2W

R97 6 TL1,TL2,TL3,TL4,TL5,TL6 Z73E80


RF module fuse board - SLFUSRFPJ5KM

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PJ5KPS

3 / 3

CSFUSRFPJ5KM Bill Of Materials Page1


1 5 C1,C2,C3,C4,C5 4n7_CC2 5 D1,D2,D3,D4,D5 LED-G33 9 FIX1,FIX2,FIX3,FIX4,FIX5, FIX35

FIX6,FIX7,FIX8,FIX94 4 FS1,FS2,FS3,FS4 16A_S

5 9 PD1,PD2,PD3,PD4,PD5,PD6, PAD_6x4PD7,PD8,PD9

6 8 R1,R2,R3,R4,R5,R6,R7,R8 2k7_1/2W


Unbalancement meas. board - SLPWRSENHC52

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1 / 3



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PJ5KPS

3 / 3

CSPWRSENHC52 Bill Of Materials Page1


1 1 C1 2p2_HQ2 1 C2 33p3 8 C3,C5,C8,C9,C11,C13,C14, 4n7

C154 2 C12,C4 100n5 3 C6,C7,C16 1n6 1 C10 100uF_35V7 1 D1 HSMS28008 1 D2 5V1_SMD9 9 FIX1,FIX2,FIX3,FIX4,FIX5, FIX35

FIX6,FIX7,FIX8,FIX910 1 JP1 FLAT16V11 10 J1,J2,J3,J4,J5,J6,J7,J8, JSMD

J9,J1012 4 PD1,PD2,PD3,PD4 PAD13 1 RV1 50k14 3 R1,R3,R9 10015 2 R6,R2 1k16 1 R4 10k17 1 R5 2.2k18 1 R7 64k919 2 R8,R10 10k020 1 R11 4k9921 3 TL1,TL2,TL3 TLINE_L22 1 TL4 TLINE_M23 1 U1 LM358SMD24 1 U2 LM50C


Analog meter selector - SLMETPJ5KM4

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1 / 3



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PJ5KPS

3 / 3

SLMETPJ5KM4 Bill Of Materials Page 1


1 1 CN1 CON16AP 90GR2 8 C2,C4,C6,C9,C12,C13,C14,

C15 CD1KpF3 3 C7,C10,C11 CD4K7pF4 2 D1,D2 1N41485 3 FIX1,FIX2,FIX4 FIX356 1 JP2 PIAZZOLE7 1 K1 TQ2-12V8 1 R1 10K9 1 SW1 COM-67610 1 TR1 87W-50K


RF module I/O interface - SLIORFPJ5KM2

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PJ5KPS

3 / 3

Interface I/O 1KW Unit Revised: 15/12/2003CSIORFPJ5KM2 Revision: 1.2

Item Quantity Reference Part______________________________________________

12 1 CN1 PHOENIX63 1 CN2 PHOENIX24 4 FIX1,FIX2,FIX3,FIX4 FIX355 1 JP1 HEADER 20X26 1 JP2 HEADER 8X27 2 R2,R1 RXE1108 1 R3 PTC_19 1 S1 SW DIP-6

Appendix to the user manual© 2002 - 2006 R.V.R. Elettronica SpA - All rights reserved

Output directional coupler - SL042MT1001

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Power relay interface - SLRLYPROTVJ

PJ5KPS

1 / 3



PJ5KPS

2 / 3

8 8

7 7

6 6

5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

FA

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LED

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D2

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04

R2

3K3

DL2

LED

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D3

1N40

04

R3

3K3

DL3

LED

-D3V

D4

1N40

04

R4

3K3

DL4

LED

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R5

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LED

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PJ5KPS

3 / 3

SLRLYCPROTVJ Bill Of Materials Page1

Item Q.ty Reference Part____________________________________________________________________________________________1 1 CN18 DB9-CS-M2 7 C1, C2, C3, C4, C5, C6, C7 CE10/254 7 DL1, DL2, DL3, DL4, DL5, DL6, DL7 LED D3V5 1 DL8 LED D3R7 8 D1, D2, D3, D4, D5, D6, D7, D8 1N40048 1 FS1 10x389 1 JP1 KRA210 1 JP2 KRA4


Emergency CCU Board - SLCCUEMPJ5K2

PJ5KPS

1 / 3



PJ5KPS

2 / 3

5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

MAINS

ON

ON

OFF

Tra TP1 e TP2 va collegato

un interruttore a levetta

fissato sul CS tramite FIX3

Contatto chiuso = ON

EXC1-EXC2

ON

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PJ5KPS

3 / 3

SLCCUEMPJ5K1 Revision: 1

Andrea Tommasi / Griptech

Item Quantity Reference Part Description_______________________________________________________________________

1 1 CN1 CN06MSTB Conn. Phoenix MSTB a 6 poli2 1 CN2 DB25MSO Connettore DB25 mas. cs 90°3 1 CS1 CSCCUEMPJ5K1 Circuito stampato4 1 C1 220uF 35V Cond. Elettr. Dia 10 P5.085 2 C2,C3 0.1uF Cond. ceramico p 5mm6 1 C4 47uF Cond. Elettr. Dia 6.5 P2.547 3 D1,D2,D4 1N4005 Diodo plastico DO418 3 D3,D5,D6 LED-G3 LED verde dia. 3mm Nota 19 2 FIX1,FIX2 FIX80 Foro fissaggio 8mm10 1 FIX3 FIX65 Foro fissaggio 6.5mm11 4 FIX4,FIX5,FIX6,FIX7 FIX35 Foro fissaggio 3.5mm12 2 F1,F2 RXE040 Fusibile autorip. 7mm13 2 JP1,JP3 STM03S Strip maschio 3 pin14 1 JP2 CN16PDO Connettore 16 poli Flat cs a 90°15 1 OPT1 4N25 Optoisolatore DIP616 1 Q1 BC547 Trans. NPN TO9217 2 R4,R1 1K2 Res. 1/4W18 1 R2 10K0 Res. 1/4W19 1 R3 1K5 Res. 1/4W20 2 TP1,TP2 NC Test point21 1 U1 LM7812 Stabilizzatore TO220

22 1 SW1 SW1V2P Deviatore fissato nel foro e collegatotra TP1 e TP2 chiuso in pos. ONCon blocco della levettaE la levetta lato saldature

Nota 1 I led vanno montati lato saldature a livello del CS


PJ5KPS

1 / 7Microcontroller board - SLCPUPJ5KM2


PJ5KPS


PWR_DIR_CPWR_DIR_A

PWR_RFL_CPWR_RFL_A

PWR_INP_CPWR_INP_A

V.P.A_APWR_INP2_C

VBIAS_APWR_REJ_C

VBUS_P TEMP_P

TEMP_ATEMP KDI_C

I_DRV_A

I_PLAL1_A

I_PLAL2_APWR_DIR_N+1

I_PLAL3_APWR_RFL_N+1

I_PLAL4_APWR_SIB_N+1

TEMP ARIA C

PJ5KPS - Scheda CPU 4

Griptech - Rev: Canazza

Scheda CPU

SLCPUPJK5M2

\\ut_srv

CSCPUPJK5M2.DSN

02/10/2002

A31

1.0 (DC)

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M I C R O

PJ5K_MICRO

IN_AD0IN_AD1IN_AD2

IN_AD4IN_AD5

IN_AD7

IN_AD3

IN_AD6

O U T _ 0

O U T _ 3O U T _ 4O U T _ 5

O U T _ 7

O U T _ 2O U T _ 1

O U T _ 6

C H 0CH1CH2CH3CH4CH5

C H 3 _ PCH4_PCH5_PCH6_PCH7_P

IN0IN1IN2IN3IN4IN5IN6IN7

O NSTDBYS W _ S A F E

STOP_AA L A R MR E S O U T

MAINS TR+TR-

V R E F

D A C _ BDAC_A

+12V

+5V

G N D E A R T H

I/O

PJ5K_I /O

OUT_0OUT_1

OUT_3OUT_4OUT_5OUT_6OUT_7

OUT_2

O C _ O U T 0OC_OUT1OC_OUT2OC_OUT3OC_OUT4OC_OUT5OC_OUT6OC_OUT7


IN_IN0IN_IN1IN_IN2IN_IN3IN_IN4IN_IN5IN_IN6IN_IN7

S T O P _ AA L A R M

R E S O U T

O NSTDBY

S W _ S A F EMAINS

OC_P5040O C _ S T D B Y

O C _ R E S O U T

IN_MAINSI N _ S W S A F EIN_ONG N D E A R T H

+5V+12V

O C _ A L A R M

IN_STDBY

F O L D E R

PJ5K_FOLDER

V R E FD A C _ ADAC_B

IN_GFB

O U T _ D A C BO U T _ G F BOUT_VBIASOUT_MOSU N B _ A N

+12V-12V

G N D E A R T HOC_P5040

C H _ V P AOUT_ IOR

IN_IOR

C H 0CH1C H 5 _ PCH6_PCH7_PC H 3CH4CH5

IN_CH0 IN_CH1 IN_CH2 IN_CH3

IN_CH5 IN_CH6 IN_CH7 IN_CH8

IN_CH10

O C _ O U T 5

OC_OUT3OC_OUT4

O C _ S T D B Y

O C _ O U T 2

OC_OUT6OC_OUT7

OC_OUT1OC_OUT0

O C _ R E S O U T

IN_IN0

IN_IN1IN_IN2IN_IN3IN_IN4IN_IN5IN_IN6IN_IN7

IN_AD7

IN_AD5

IN_AD3IN_AD2

IN_CH4

IN_CH9IN_CH8IN_CH7

IN_CH5

IN_AD6

IN_AD1

IN_CH0

IN_CH6

IN_CH2IN_CH1

IN_CH10

IN_AD4

IN_CH3

IN_MAINS

C H _ V P A

O U T _ D A C BOUT_MOS

O U T _ G F B

I N _ S W S A F E

+12V-12V

O C _ O U T 3OC_OUT4

OC_OUT1OC_OUT0

OC_OUT6OC_OUT5

OC_OUT7

OC_OUT2

IN_IN0IN_IN1IN_IN2IN_IN3IN_IN4IN_IN5IN_IN6IN_IN7

O C _ R E S O U T

OC_P5040O C _ S T D B Y

IN_MAINSI N _ S W S A F EIN_ON

O U T _ D A C BO U T _ G F BOUT_VBIASOUT_MOSU N B _ A N

C H 5

C H 4 _ P

IN_AD1

C H 3 _ P

CH7_P

TR-

IN_AD4

C H 4 _ P

IN_AD7

C H 5 _ P

TR+

C H 0

CH5

CH1

C H 5 _ P

IN_AD3

C H 2CH0

IN_AD0

IN_AD2

IN_AD6

C H 4

C H 6 _ P

C H 2

C H 3 _ P

CH7_P

C H 3

IN_AD5

C H 1

CH3

O C _ A L A R MU N B _ A N

IN_STDBY

OC_P5040

C H _ V P A

IN_CH4 C H 4

IN_CH9 C H 6 _ P

OUT_ IORIN_IOROUT_ IOR

IN_IOR

IN_GFB

C H 0CH1C H 5 _ PCH6_PCH7_PC H 3CH4CH5

+12V-12V

IN_GFB

O C _ A L A R MIN_STDBYIN_ON

+5V

OUT_VBIAS

C H 3 _ P

TR-TR+

IN_AD0OC_P5040 +7V

-7V

-12V

+12V

+5V

-7V

+7V

-7V

+7V

+7V

-7V

-7V

+7V

R21

1K

R15100K

TR4

8 7 W - 2 0K

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2

C 5

CM1kpF

12

C17

CM1kpF

12

R14100K

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2K2

R28

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-U 3 C

LM32410

98

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4

1 3

GN

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2

C16 CM27pF1 2

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R13100K

R34100K

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13

2

TR8

8 7 W - 2 0K

13

2

R32100K

R10

100R

R16

2K2

+

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LM32412

1314

TR1

8 7 W - 2 0K

13

2

R18

2K2

C 3

CM1kpF

12

C 2 CM27pF1 2

R39

2K2

R 9

100R+

-U 1 A

LM3243

21

411

R26

100R

R37

2K2

C10 CM27pF1 2

TR7

8 7 W - 2 0K

13

2

R 2

1K

TR5

87W-20K

13

2

C 8 CM27pF1 2R11100K

C12 CM27pF1 2

TR9

87W-20K

13

2

+

-U 2 A

LM3243

21

411

R 8

100R

R12100K

R29

100R

+

-U 1 D

LM32412

1314

+

-U 2 B

LM3245

67

R27

100R

+

C271/25

C 6 CM27pF1 2

C19

CM1kpF

12

R17

2K2

C18 CM27pF1 2C14 CM27pF1 2

+

-U 1 C

LM32410

98

R25

1K

R451K

TR6

87W-20K

13

2

+

-U 3 A

LM3243

21

411

+

-U 2 C

LM32410

98

R35100K

JP3

STRIP20

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R 7

100R

C125CM.1uF

12

R40

2K2

C 4 CM27pF1 2

R 6

100R

C126CM.1uF

12

TR10

8 7 W - 2 0K

13

2

+

-U 1 B

LM3245

67

R46

1K

C123CM.1uF

12

R30

100R

C124CM.1uF

12

C20 CM27pF1 2

+

-U 3 B

LM3245

67

C21

CM1kpF

12

R41

1K

FIX1FIX35

1

C 1

CM1kpF

12

F IX2FIX3 5

1

C121C M 4 K 7 p F

12

+

C33

1/25

R43100K

FIX3FIX35

1

DZ2

5V1 /1W

FIX4FIX35

1

DL2L E D

R44

2K2

DZ1

5V1 /1W

C35CM.1uF

12

TR11

87W-20K

13

2

C32

C M 4 K 7 p F

12

+

C241/25

C31C M 4 K 7 p F

12

R 1

1K

C36

CM.1uF

12

DL3

L E D

R42

100R

+

C231/25

+

C341/25

C22 27pF1 2

C25CM.1uF

12

+C281/25

C29CM.1uF

12

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STRIP20

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+

-U 3 D

LM32412

1314

C26CM.1uF

12

C30

CM.1uF

12

C15

CM1kpF

12

R23

1K

C 9

CM1kpF

12

R33100K

C 7

CM1kpF

12

C11

CM1kpF

12

R 5

1K

DL1L E D

R38

2K2

R 4

1K


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

-3.3V+3.3V

PWR_DIR N+1

PWR_RFL N+1

PWR_SBIL N+1

TEMP KDI CTEMP ARIA PS

TEMP ARIA C

PWR INP2 C

PWR_SBIL C


Gr iptech - Rev: Canazza

Sezione Foldback

SLCPUPJK5M2

\\ut_srv

CSCPUPJK5M2.DSN

02/10/2002

A32

1.0 (DC)

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R F L _ P W R

F W D _ P W R

I_PAL1

I_PAL4

I_PAL3

TEMP

I_PAL2

I_DRV

VREF

+12V

-12V

-12V

+12V

-12V

+12V

+12V

-12V

+12V

+12V

-12V

-12V

+12V

+12V

C48CM.1uF

12

C56CM.1uF

12

R68

100R

C134CP *

12

TP1

3.3V1

C44

XCP

1 2

+

-

U8B

TL074

5

67

+

C42220/25

R72

X

R223

47K

R54

100R

C131CM.1uF

12

R229

330K

R53

20K

C132CM.1uF

12

R9833K2

R1011M

D30 BAT83

D4 BAT83

C137

CM100PF

1 2

R103

10K

R83

10K

C58

CM10KpF

12

R782K7

R221

47K

R10210K

+

-

U 5 DTL074

12

1314

+

- U 7 C

TL07410

98

R76

10K

R97

10K

D2

BAV99B2

3

1

C136

CP.1uF

1 2

+

- U 6 C

TL07410

98

R8410K

R56

10K

R92

10K

R52

25K5

R69

59K

R105

1K

R222

10K5

R66

10K

+

-

U8A

TL074

3

21

411

D3BAT83

D5 BAT83

C57

CM10KpF

12

+

-

U7ATL074

3

21

411

R74

10K

R79 10K

C128CM.1uF

12

+

-

U 8 D

TL074

12

1314

R8120K

R59

1K

R104

10K

R96

10K

R61

4K7

R55

100R

+C1381/25

C52

220pF

12

C139CM1KPF

12

C127CM.1uF

12

R63

39K

R58

10K

C43

CM4K7pF

12

D1BAV99B

2

3

1

+C40220/25

+

-

U6B

TL074

5

67

+

-

U7BTL074

5

67

R75100K

R6410K

R60

100R

D6

BAT83

R6710K

+

-

U 6 D

TL074

12

1314

R70

10K

C39

CM4K7pF

12

R71 100KC135

CP.1uF 1 2

R62

10K

+C491/25

D8 BAT83

R82

20K

R9516K9

R77

10K

+C501/25

R90

10KD9 BAT83

TR1287W-10K

13

2

C38

CM.1uF

1 2

+

- U5ATL074

3

21

411

R87

10K

+C531/25

+

- U6A

TL0743

21

411

R100

10K

D11 BAT83

C45

X

1 2

C41CM10KpF1 2

R224

10K5

C47

CM.1uF

12

R49 10K

+C541/25

D12 BAT83

C51CM.1uF

12

R99 10K

+

-

U 8 C

TL074

10

98

+

-U 7 DTL074

12

1314

R65

20K

+

-

U 5 CTL074

10

98

R57

10K

D7 BAT83 R86

100R

+

-

U5BTL074

5

67

R85

3K62

C55CM.1uF

12

R80 10K

R48 10K

R89

10K

R22810K

VREF

DAC_ADAC_B

IN_GFB

O U T _ D A C B

O U T _ G F B

OUT_VBIAS

O U T_MOS

+12V

-12V

GND EARTH

OC_P5040

CH_VPA

OUT_ IOR

IN_IOR

C H 0

CH1

CH5_P

CH7_P

C H 4

CH5

CH3

CH6_P

U N B _ A N


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A



Sezione I /O digitale

SLCPUPJK5M2

\\ut_srv

CSCPUPJK5M2.DSN

02/10/2002

A33

1.0 (DC)

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

O C _ O U T 0 C

OC_OUT1C

OC_OUT2C

OC_OUT3C

OC_OUT4C

OC_OUT5C

OC_OUT6C

OC_OUT7C

O C _ A L A R M CALAR M

OC_P5040C

OC_P5040C

O C _ O U T 0 C OC_OUT1C OC_OUT2C OC_OUT3C OC_OUT4C OC_OUT5C OC_OUT6C OC_OUT7CO C _ S T O P A C

OC_STOPAC

IN_ONO C _ A L A R M C

R E S O U T C

IN_STDBY

IN_STDBY

G N D

R E S O U T C

IN_ON

+12V

+5V+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

D13

1N4004

R109

1K

U12B

40106

3 4

U11BULN2004A

2 15

R133

22R

C81

CM4K7pF

12

R134 2K2

O C 1

TLP521-1

1

2

4

3

R122

22R

C75

CM4K7pF

12

U14A

40106

1 2

147

U13AULN2004A

1 16

9

R153

22R

C66CM.1uF

12

R156 2K2

R150 2K2

C78

CM4K7pF

12

U11DULN2004A

4 13

R142

22R

U12E

40106

11 10

C70CM.1uF

12

R137

22R

U12F

40106

13 12

R118

1K

C69CM.1uF

12

R135

47K

U14E

40106

11 10

O C 2

TLP521-1

1

2

4

3

U11CULN2004A

3 14

U14F

40106

13 12

C72

CM4K7pF

12

R157

47K

U14C

40106

5 6

R113 2K2

R151

47K

U13EULN2004A

5 12

R115

47K

U13GULN2004A

7 10

U11EULN2004A

5 12

R139

22R

R155

22R

C62

CM.1uF

12

R158

22R

R132

22R

U10F

40106

13 12

C71

CM4K7pF

12

U13BULN2004A

2 15

C82

CM4K7pF

12

R127

22R

R128 2K2

R106 2K2

C76

CM4K7pF

12

U13DULN2004A

4 13

R145

22R

C83

CM4K7pF

12

C65CM.1uF

12

R144 2K2

R152

22R

R123

22R

U12A

40106

1 2

147

C68CM.1uF

12

C73

CM4K7pF

12

C61CM.1uF

12

R126

22R

C79

CM4K7pF

12

R131

47K

U14B

40106

3 4

R159

22R

R110

47K

R143

22R

U10E

40106

11 10

U11AULN2004A

1 16

9

D14

1N4004

R117

22R

R147

47K

C59

CM.1uF

12

R112 2K2

U11FULN2004A

6 11

R107 2K2

R116

22R

R114

47K

R136

22R

C60CM.1uF

12

U12D

40106

9 8

U13FULN2004A

6 11

R111

47K

U13CULN2004A

3 14

R154

22R

U10D

40106

9 8

R146

22R

R108

1K

R148

22R

R124 2K2

C77

CM4K7pF

12

R140 2K2

C74

CM4K7pF

12

C64CM.1uF

12

R121

47K

C67CM.1uF

12

U10B

40106

3 4

C63CM.1uF

12

U11GULN2004A

7 10U12C

40106

5 6

R125

47K

R130

22R

R120 2K2

R138

22RR141

47K

U10A

40106

1 2

147

R149

22R

U10C

40106

5 6

C80

CM4K7pF

12

JP8

STRIP 2

12

C84

CM4K7pF

12

R1191K

R129

22R

O U T _0

O U T _1

O U T _2

O U T _3

O U T _4

O U T _5

O U T _6

O U T _7

O C _ O U T 0

OC_OUT1

OC_OUT2

OC_OUT3

OC_OUT4

OC_OUT5

OC_OUT6

OC_OUT7

O C _ A L A R M

IN0

IN1

IN2

IN3

IN4

IN5

IN6

IN7

IN_IN0

IN_IN1

IN_IN2

IN_IN3

IN_IN4

IN_IN5

IN_IN6

IN_IN7

R E S O U T O C _ R E S O U T

O N

STDBY

S W _ S A F E

MAINS

STOP_A OC_STDBY

ALARM

IN_MAINS

I N _ S W S A F E

IN_ON

IN_STDBY

OC_P5040

+5V

GND EARTH

+12V


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Analog InDigitalI/O

Bus 485

PRG OC

DIP8RS485



Sezione micro

SLCPUPJK5M2

\\ut_srv

CSCPUPJK5M2.DSN

02/10/2002

A34

1.0 (DC)

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

D7D6

R S TC K O

D6D7

D1

D3

D4

D2

D3D2D1D0

D5

D4

D0

D5

SEL1

C K

AD0

AD1

AD5AD4

AD2

AD7

AD3

AD6

AD0

AD1

AD2

AD3

AD4

AD5

AD6

AD7

MOSISCLKC S M

D6

D2

D5

SS

C K

D3

SEL1

D0

SEL0

D1

MISO

D4

TXD

D7

IRQ

R X D

R S TD7D0

RST_PPA7PA0IRQ

D6

D3

D7

CKI

D2

D4

D1D0

ENICKI

D5MOSI

C S ASCLK

MISO

CH3_D CH0_D CH4_D CH1_D CH5_D CH2_D

PTB3 PTB4 PTB5 PTB5 PTB6

MOSI

D4D3

R X D

D5

D2

VREF

SCLK

VREF

D6

MISO

SEL0

PTB5

PTB3

PTB1CH0_P

TXD

PTB6PTB4PTB1 PTB2

D E

PTB7

SS

PTB5PTB0

PA0

CH2_P

PTB7

CH1_P

PTB3

IRQ

C K

D1

SEL1

PA7

PTB2

PTB0

PTB4

PTB6

V C C

VDD

CH2_P

CH0_D

CH4_D

VSS

CH1_P

CH1_D

CH5_D

V D D

G N D

CH2_D

VSSA

CH3_D

E N A

CH0_P

TXD

R S T

D ER X D

TR+T R -

E N A

C S MC S AENI

CKI

SS

SEL0

RST_P

MOSI

SCLK

VREF

C K O

+5V

+5V

+5V

+5V

+5V

+12V

+5V

+5V

+5V

+5V

+5V

+5V

+5V+5V +5V +5V +5V +5V +5V

+5V +5V +5V +5V +5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

R173 10K

C92

CM10KpF

12

R201 10K

R211

1M

R191 4K7

D25

BAV99B

2

3

1

JP4

STRIP 5

12345

R175 10K

R226

47K

R202 10K

C98CP10KpF

1 2

R187X2K2

C88

CM1KpF

12

R203 10K

U17

74HC574

23456789

111

1918171615141312

20

10

D1D2D3D4D5D6D7D8

CLKO C

Q 1Q2Q3Q4Q5Q6Q7Q8

VC

C

G N D

R2171M

U16

74HC273

3478

1314

1718

111

2569

1215

1619

20

10

D1D2D3D4

D5D6

D7D8

CLKC L R

Q 1Q2Q3Q4

Q5Q6

Q7Q8

VC

C

G N D

U19

74HC244

2468

1113

1517

119

18161412

97

53

20

10

1A11A21A31A4

2A12A2

2A32A4

1 G2G

1Y11Y21Y31Y4

2Y12Y2

2Y32Y4

VC

C

G N D

R218 10R

R204 10K

R193 4K7

R205 10K

R207 10K

R181 2K2

D15

BAV99B

2

3

1

R220 10K

R17810KU15

MC68HC908GP32-QFP

32

23

3311

34

24

35

1

36

25

37

40

38

26

39

41

27

17

28

16

29

3031

910

121314151819

23456

22

2021

444342

78

PTA0

PTB1

PTA1IRQ*

PTA2

PTB2

PTA3

RST*

PTA4

PTB3

PTA5

VD

DA

PTA6

PTB4

PTA7

VS

SA

PTB5

VD

D

PTB6

VS

S

PTB7

VD

DA

DV

SS

AD

PTE0PTE1

PTD0PTD1PTD2PTD3PTD4PTD5

PTC0PTC1PTC2PTC3PTC4

PTB0

PTD6PTD7

O S C 1OSC2C G M X F C

PTC5PTC6

C99

CM1kpF

12

C115CM.1uF

1 2

C93

CM10KpF

12

D16

BAV99B

2

3

1

R219 10K

C102CM.1uF

1 2

R225

12K

R18210K

D17

BAV99B

2

3

1 R177 2K2

JP5

STRIP 5X2

1 23 45 67 89 10

U18

TLV5625

234

1 8765

SCLKC SO U T A

DI V C CO U T BVREFG N D

R16110M

Q 2BC237

R230

10K

R163330K

R185 2K2

D18

BAV99B

2

3

1

R164

10k

C89

CM1KpF

12

R206 10K

DZ412V/0.5

R160 2K2

DZ6

5V1/0 .5W C116CM.1uF

1 2

R16210K

D19

BAV99B

2

3

1

C86

CM.1uF

12

R2142K2

Y132.768 KHz

DZ3

12V/0.5

C87

CM1KpF

12

C105

CM.1uF

R1674K7

D29

LM336-5.0V

2

3

1

C96CM.1uF

1 2

DZ5

5V1/0 .5W

+ C1041/25

C122

CM.1uF 12

R18610K

R17610K

+ C1061/25

R183 X2K2

R195 4K7

D23

BAV99B

2

3

1

+C118

1/25

R190 2K2

C101CM.1uF

1 2

U23

25C080

561

237

8

4

SIS C KC S

S OW P

H L D

V C C

G N D

C133

CM.1uF

12

R196 4K7

C94

CM10KpF

12

R197 10K

C117CM.1uF

1 2

R174 2K2

R227

10K

C119

CM1KpF

12

C103

CM.1uF

12

R19210K

R208 10K

D26

BAV99B

2

3

1

R179 2K2

C90

CM10KpF

12

D22

BAV99B

2

3

1

C130

CM.1uF

12

R16610K

C114CM.1uF

1 2

R209 10K

C85CM27pF 1 2

C97

CP33KpF

1 2

C100CM.1uF

1 2

R18010K

U22B74HC139

1413

15

1211109

AB

G

Y0Y1Y2Y3

C120

CM.1uF

12

R198 4K7

R216 10K

R165 2K2

R210 10K

D20

XBAV99B

2

3

1

R200 4K7

D24

BAV99B

2

3

1

U14D40106

9 8

C107

CM.1uF

12

R213 10K

C112

CM.1uF

12

C108

CM.1uF

12

C91

CM10KpF

12

D27

BAV99B

2

3

1

R168 4K7

JP6

STRIP 2

12

C113

CM.1uF

12

C95

CM27pF 1 2

C109

CM.1uF

12

R215 10K

C129

CM.1uF

12

R169 4K7

C110

CM.1uF

12

R170 10K

C111

CM.1uF

12

R2122K2

U20

SN75176AP

12

34

7

6

58

R OR E

DEDI

B

A

GN

DV

CC

R171 10K

R18810K

R194 10K

JP7

STRIP 2

1 2

U21

74HC4053

1213

21

53

611109

14

15

4

16

7

8

X0X1

Y0Y1

Z0Z1

INHABC

X

Y

Z

VC

C

VEE

VSS

U22A74HC139

23

1

4567

8

16

AB

G

Y0Y1Y2Y3

G N D

VC

C

R172 10K

R199 10K

D21

BAV99B

2

3

1

IN_AD0

IN_AD2

IN_AD3

IN_AD4

IN_AD5

IN_AD6

IN_AD1

IN_AD7

O U T _ 0O U T _ 1O U T _ 2O U T _ 3O U T _ 4O U T _ 5O U T _ 6O U T _ 7


O NSTDBY

S W _ S A F EMAINS

STOP_AALARMR E S O U T

TR+TR-

VREF

DAC_B

DAC_A

CH3_PCH4_PCH5_PCH6_PCH7_P

C H 0

CH1

CH2

CH3

CH4

CH5

+12V+5V

GND EARTH


PJ5KPS


CSCPUPJ5KM2 Bill Of Materials Page1


1 17 C1,C3,C5,C7,C9,C11,C13, CM1kpFC15,C17,C19,C21,C87,C88,C89,C99,C119,C139

2 12 C2,C4,C6,C8,C10,C12,C14, CM27pFC16,C18,C20,C85,C95

3 1 C22 27pF4 14 C23,C24,C27,C28,C33,C34, 1/25

C49,C50,C53,C54,C104,C106,C118,C138

5 55 C25,C26,C29,C30,C35,C36, CM.1uFC38,C47,C48,C51,C55,C56,C59,C60,C61,C62,C63,C64,C65,C66,C67,C68,C69,C70,C86,C96,C100,C101,C102,C103,C105,C107,C108,C109,C110,C111,C112,C113,C114,C115,C116,C117,C120,C122,C123,C124,C125,C126,C127,C128,C129,C130,C131,C132,C133

6 19 C31,C32,C39,C43,C71,C72, CM4K7pFC73,C74,C75,C76,C77,C78,C79,C80,C81,C82,C83,C84,C121

7 2 C42,C40 220/258 8 C41,C57,C58,C90,C91,C92, CM10KpF

C93,C949 1 C44 XCP10 2 R72,C45 X11 1 C52 220pF12 1 C97 CP33KpF13 1 C98 CP10KpF14 1 C134 CP *15 2 C136,C135 CP.1uF16 1 C137 CM100PF17 3 DL1,DL2,DL3 LED18 2 DZ2,DZ1 5V1/1W19 2 DZ4,DZ3 12V/0.520 2 DZ6,DZ5 5V1/0.5W21 14 D1,D2,D15,D16,D17,D18, BAV99B

D19,D21,D22,D23,D24,D25,D26,D27

22 10 D3,D4,D5,D6,D7,D8,D9,D11, BAT83D12,D30

23 2 D13,D14 1N400424 1 D20 XBAV99B25 1 D29 LM336-5.0V26 4 FIX1,FIX2,FIX3,FIX4 FIX3527 3 JP1,JP2,JP3 STRIP2028 1 JP4 STRIP 529 1 JP5 STRIP 5X230 3 JP6,JP7,JP8 STRIP 231 2 OC1,OC2 TLP521-132 1 Q2 BC237

33 20 R1,R2,R3,R4,R5,R21,R22, 1KR23,R24,R25,R41,R45,R46,R47,R59,R105,R108,R109,R118,R119

34 16 R6,R7,R8,R9,R10,R26,R27, 100RR28,R29,R30,R42,R54,R55,R60,R68,R86

35 13 R11,R12,R13,R14,R15,R31, 100KR32,R33,R34,R35,R43,R71,R75

36 33 R16,R17,R18,R19,R20,R36, 2K2R37,R38,R39,R40,R44,R106,R107,R112,R113,R120,R124,R128,R134,R140,R144,R150,R156,R160,R165,R174,R177,R179,R181,R185,R190,R212,R214

37 64 R48,R49,R56,R57,R58,R62, 10KR64,R66,R67,R70,R74,R76,R77,R79,R80,R83,R84,R87,R89,R90,R92,R96,R97,R99,R100,R102,R103,R104,R162,R164,R166,R170,R171,R172,R173,R175,R176,R178,R180,R182,R186,R188,R192,R194,R197,R199,R201,R202,R203,R204,R205,R206,R207,R208,R209,R210,R213,R215,R216,R219,R220,R227,R228,R230

38 1 R52 25K539 4 R53,R65,R81,R82 20K40 10 R61,R167,R168,R169,R191, 4K7

R193,R195,R196,R198,R20041 1 R63 39K42 1 R69 59K43 1 R78 2K744 1 R85 3K6245 1 R95 16K946 1 R98 33K247 3 R101,R211,R217 1M48 15 R110,R111,R114,R115,R121, 47K

R125,R131,R135,R141,R147,R151,R157,R221,R223,R226

49 26 R116,R117,R122,R123,R126, 22RR127,R129,R130,R132,R133,R136,R137,R138,R139,R142,R143,R145,R146,R148,R149,R152,R153,R154,R155,R158,R159

50 1 R161 10M51 2 R229,R163 330K52 2 R187,R183 X2K253 1 R218 10R54 2 R222,R224 10K555 1 R225 12K56 1 TP1 3.3V


PJ5KPS


57 11 TR1,TR2,TR3,TR4,TR5,TR6, 87W-20KTR7,TR8,TR9,TR10,TR11

58 1 TR12 87W-10K59 3 U1,U2,U3 LM32460 1 U4 LM78M05CDT61 4 U5,U6,U7,U8 TL07462 3 U10,U12,U14 4010663 2 U11,U13 ULN2004A64 1 U15 MC68HC908GP32-QFP65 1 U16 74HC27366 1 U17 74HC57467 1 U18 TLV562568 1 U19 74HC24469 1 U20 SN75176AP70 1 U21 74HC405371 1 U22 74HC13972 1 U23 25C08073 1 Y1 32.768 KHz


PJ5KPS

1 / 4PS and combiner CPU adapter - SLADPPSPJ5K2


PJ5KPS


TYPE POWERCOMBI

IN_IN4

PWR DIR

PWR INP DIV

1

4 = COMBINAT

OUT_GFBOUT_VBIAS

IN_MAINS

IN_IN5

+5V

IN_IN2

TEMP KDJ

1 = POWER SUPPLY

IN_CH7

0 = RISERVATOOC_OUT1

CH3_P

IN_IN1

OC_OUT4

0 = RISERVATO

OC_OUT5

OC_OUT2

OUT_IOR

PWR RFL

OC_P5040

IN_STDBY

PWR INP2 LOAD

OC_OUT7

ADDRESS 4

IN_IOR

IN_IN3

CLIXSON

PWR SBIL N+1

8 = PA-XX

IN_IN7

0

PWR RFL N+1

IN_IN6

ASSEGNAZIONE INDIRIZZI

OC_RESOUT

TEMP ARIA

OC_OUT6

PWR DIR N+1

OUT_MOS

OC_OUT3

PWR REJ

CH_VPA

IN_GBF

POWER

KDJ

INPUT

N+1

SWSAFE

UNB_AN

OC_STDBY

OC_OUT0GALVANOMETRO

2

3

4

5

6

7

SEL VIS1SEL VIS2SEL VIS3

PJ5KPS - Adapter PS and Combiner

<>

2

Mauro Ucell i

ADAPTER PS / COMB - Cb_5kw

SLADPPSPJ5K2

\\UT_SRV

CSADPPSPJ5KM2.DSN

31/05/2001

A31

0

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

DIR-

D I R +

C I N _ A D3

C I N _ I N 5

-12V

U N B _ A N

C I N _ A D1

C I N _ C H 6

C I N _ A D2

I N _ O N

C I N _ C H 8

C I N _ C H 5

C I N _ C H 2

C I N _ A D0

C I N _ C H 4

OUT_DACB

C I N _ C H 10

C I N _ I N 7

C I N _ I N 0

C I N _ C H 1

C I N _ A D4

C I N _ C H 0

C I N _ C H 9

C I N _ I N 6

+12V

T R -TR+

C I N _ C H 3

C I N _ A D7C I N _ A D6

OUT_GFB

C I N _ A D5

C I N _ C H 0D I R +DIR-R F L +R F L -TC+T C -

R F L+

R F L -

C I N _ C H 1 TC+

T C -

C I N _ C H 10

C I N _ C H 6

R E J -

L O A D+

TKD+

DIV+C I N _ C H 2D I V -

L O A D -D IV -

TKD+R E J+R E J +

D I V + L O A D+

R E J - C I N _ C H 8

L O A D -

REJ_MP

D I R _ N -

R F L _ N-SBL_N+

D I R _ N +

SBL_N-

R F L _N+D I R _ N - C I N _ C H 3

D I R _ N +R F L_N+

C I N _ C H 4

R F L _ N-

SBL_N+

C I N _ C H 5

S B L _ N -

SEL_4

OUT_GFB

SEL_3

S E L_2

SEL_2

SEL_6

SEL_0

SEL_7

SEL_5

OUT_DACB

C I N _ I N 6

S E L_4

S E L_3

S E L_5

S E L_0

S E L_6

C I N _ I N 7

S E L_6

S E L_0

S E L_7

S E L_5

S E L_2

S E L_7

S E L_3

S E L_4

C I N _ I N 5

U N B _ A N

C I N _ C H 9

REJ_MP

C I N _ I N 0

-12V

+12V

+12V_S

+12V_S

+12V_S

+12V_S

+12V

-12V

+12V_S

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

+12V

-12V

-12V

-12V

-12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

-12V

+12V

R94 10k+

-

U5A

TL074

3

21

411

R60 10k

JP5

STRIP20

123456789

1011121314151617181920

C90C M .1uF

12

R89

20k

R124

10R

R68

20k

C71

C D 1 KpF1 2

C85

C D 1 KpF

12

C103C M .1uF

12

R107100R

R85100R

D23

1N4148

D22

1N4148

C79

C D 4K7pF

1 2

C102

C D 1 KpF

12

JP4

STRIP20

123456789

1011121314151617181920

+

-

U 4 B

TL074

5

67

R12020k

FIX5FIX35

1

D47 B A T83

D271N4148

D30

1N4148

D58 B A T83

D39

1N4148

R47

20K

R11610k

R101

RXE020

R50 100R

+

-

U 7 C

LM324

1 0

98

+

-

U 5 D

TL074

1 2

1314

f

F4

DSS-22KpF

1 3

2

R82

100R

R111

100R +

-

U 6 B

TL074

5

67

D56 B A T83

R106

20k

C95CM.1uF

12

C59

C D 1 KpF

PD16P I AZZ_2P

C77

C D 4K7pF

1 2

R642 0 k

C76 C D 4K7pF1 2

R132

10K

R67RXE020

C69 C D 4K7pF

1 2

R63

RXE020

C91CM.1uF

12

+ C871/25

D20

1N4148

D24

1N4148

C70

C D 4K7pF

1 2

C88C M .1uF

12

R133

100R

C N 6

D B 9 FEM

594837261

D37

1N4148

R117

RXE020

D19

1N4148

R126RXE020

C78

C D 1 KpF

12

C N 8

DB9 FEM

594837261

R72 10k

P D 1 1 P I AZZ_2P

C57

C D 1 KpF

12

C75

C D 1 KpF

12

R97 100R

D35

1N4148

D44

1N4148

R81 10k

R75 10k

C98

C D 1 KpF

12

P D 1 5 P I AZZ_2P

D45 B A T83

+

K1

TQ2-12V

32

4

89

71

10

R105

20k

R10810k

R73100R

R58 10k

R98 10k

D151N4148

C80

C D 1 KpF

12

+

-

U 5 CTL074

1 0

98

R11010k

R49 10k

C84

C D 4K7pF

1 2

R112

100R

C83

C D 1 KpF

12

R51 10k

D12

1N4148

D21

1N4148

D33

1N4148

D42

1N4148

D64

1N4148

R55

100R

R45

20k

D171N4148

C64

C D 4K7pF

1 2

R102RXE020

R6520k

C92C M .1uF

12

D481N4148

JP6

STRIP20

123456789

1011121314151617181920

C63

C D 4K7pF

1 2

R69

20k

R54

100R

FIX7FIX35

1

D131N4148

R103

2 0 k

D 8

1N4148

R121

RXE020

D10

1N4148

C67

C D 1 KpF

12

R74

100R

C81

C D 1 KpF

1 2

D141N4148

R84 10k

R87 20k

R127

150R

D50 B A T83

R79 10k

+

-

U 4 A

TL074

3

21

411

R71100R

R113 100R

R48 100R

C97

C D 1 KpF

12

R76100R

R57 100R D11

1N4148

C101

C D 4K7pF

1 2

R52

100R

D31

1N4148

D40

1N4148

R95

100R

+

-

U5B

TL074

5

67

R109100R

D181N4148

+

-

U 7 D

LM324

1 2

1314

C66

C D 1KpF

12

C62C D 1 KpF

C72

C D 1 KpF 12

C N 7

DB9 MASC

594837261

R96

100R

C65

C D 1 KpF

12

f

F 5

DSS-22KpF

1 3

2

R119

20k

R46

20k

R62

10k

C74

C D 1 KpF

12

R125 1K

PD12P I AZZ_2P

D 9

1N4148

+

-

U 7 B

LM324

5

67

+

C104 1/25

D54 B A T83

FIX6FIX35

1

C93C M .1uF

12

R66 20K

R862 0 k

D71N4148

R70

20k

f

F 2

DSS-22KpF

1 3

2

C58

C D 1 KpF

C73

C D 1KpF

12

+

-

U 6 D

TL074

1 2

1314

C61

C D 1 KpF

D28

1N4148

+ C961/25

C89C M .1uF

12

C N 9 DB9 MASC

594837261

D43

1N4148

JP7J U M P E R

12

f

F1

DSS-22KpF

1 3

2

+

-

U 6 A

TL074

3

21

411

R8820k

R123

150RD52 B A T83

C N 10

C O N 1 6 A P

13579

111315

246810121416

++++++++

++++++++

R131

100R

D631N4148

R61

100R

R83100R

R92 10k

R11410k

D 51N4148

R77 10k

R91 100R

D29

1N4148

D38

1N4148

D511N4148

R115100R

D16

1N4148

D49 B A T83

D41

1N4148

+

-

U 4 D

TL074

1 2

1314

D 61N4148

D46 B A T83

D251N4148

D57 B A T83

R53 10k

C60

C D 1 KpF

12

C82

C D 1 KpF

12

R56

100R

FIX8FIX35

1

R118RXE020

D32

1N4148

R122

150R

R128

150R

f

F6

DSS-22KpF

1 3

2

PD14P I AZZ_2P

D261N4148

R78

100R

R93

100R

D55 B A T83

R80100R

C94C M .1uF

12

f

F3

DSS-22KpF

1 3

2

R59 100R

P D 9 P I AZZ_2P

P D 1 3 P I AZZ_2P

+

-

U 7 A

LM324

3

21

411

D53 B A T83

+

-

U 6 C

TL074

1 0

98

PD10P I AZZ_2P

C86

C D 1 KpF

12

TR+T R -

I N _ O N

O C _ A L ARM

+12V-12V

C _ F A NCOUT_GFB

O C _ STDBY

COAX

+12V_S


PJ5KPS


IN_AD0IN_AD1IN_AD2IN_AD3IN_AD4IN_AD5IN_AD6

IN_GFB

SS1S1

SS2

S2FAN

RIS

IN_CH1IN_CH2IN_CH3

IN_CH6

IN_CH4IN_CH5

IN_CH9IN_CH10

OC_RESOUT

CH_VPACH3_P

OUT_GFB

OUT_DACBOUT_MOS

IN_CH0

OUT_VBIAS

RELE POWER

OC_FB

IN_IOROUT_IOR

ADDRESS 1

IN_AD7

TYPE POWERSUPPLY

IN_STDBY

OC_P5040

OC_OUT4OC_OUT5

CSRLYCPROTVJ

BUS CU

VBUSTEMP

CARRELLO 1

CARRELLO 2

OC_OUT6

DISS. A TELAIO

DISS. A TELAIO

PJ5KPS

<>

2

Mauro Ucell i

ADAPTER P.S. E COMBINER

SLADPPSPJ5KM2

\\UT_SRV

CSADPPSPJ5KM2.DSN

31/05/2001

A32

0

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

Cb_5kw

Cb_5kw

C _ F A NT R +TR-

C O U T _ G F BI N _ O N

O C _ S T D B YO C _ A L A R M

+ 1 2 V- 1 2 V

C O A X+ 1 2 V _ S

+12V_S

-12V

18V_DW

I N _ I N 0CLK1

SM1 I N _ I N 1

R C T 1 I N _ I N 2

CLK2 I N _ I N 3

R C T 2 I N _ I N 4

N C I N _ I N 5

IN_IN6RST_SAFE

I N _ I N 7PRE S

I N _ S W S A F EIN_SAFE

O C _ O U T7

O C _ O U T0O C _ O U T1

O C _ O U T2

O C _ O U T3

I N _ S A F E

SM1

N C

RST_SAFE

I N _ C H 7V B U S

I N _ MAINS

+5V

18V_UP

P R E S

18V_UP

18V_D W

T R -

RST_SAFE

O C _ STDBY

O C _ A L ARM

I N _ O N

O C _ STDBY O C _ A L ARM

RST_SAFE I N _ O N

+12V

OC_OUT0 OC_OUT1 OC_OUT2 OC_OUT3 OC_OUT7

+12V_S

V B U S

+12V_S

R C T1C L K 1

CLK2

V B U S

+12V_S

R C T 2

T+

T-

O C _ A L ARM

+12V

+5VTR+

I N _ I N 0

I N _ O N

T R -

-12V

O C _ O U T1

O C _ O U T3

I N _ I N 7

O C _ STDBY

O C _ O U T2

O C _ O U T7

IN_MAINS

O C _ O U T0

I N _ S W S A F E

I N _ I N 6I N _ I N 5

I N _ I N 2

I N _ I N 4I N _ I N 3

I N _ I N 1

I N _ C H 8I N _ C H 7

COAX

I N _ C H 8

T-

T+

COUT_GFB

C _ F A N

C _ F A N

C _ F A NTR+T R -COUT_GFB

TR+

I N _ O NO C _ STDBYO C _ A L ARM+12V

-12VCOAX+12V_S

I N _ P H

I N _ P H +12V

-12V

+12V

+12V_S

C 8C M .1uF

12

JP1

STRIP20

123456789

1011121314151617181920

C21

C D 4K7pF

1 2

+C12

470/35

R11

820R

C28C D 1KPF

12

C42C D 4K7PF

12

U 1LM7812

1

2

3V I

GN

D

V O

R15 100R

C33C D 2 7PF

12

C30

C D 4K7PF

12

P D 1P I AZZ_2P

R 5

RXE110

R30100R

R26

10R

C19C D 4K7PF

12

IS14N25

12

54

6

C22C M .1uF

12

U 2LM7812

1

2

3V I

GN

D

V O

IS54N25

12

54

6

R42

33K/1 W

R37

820R

R122K2

C11C D 4K7pF

12

R272K2

C 1

C D 1KPF

12

IS34N25

12

54

6

P D 4 P I AZZ_2P

FIX1FIX35

1

R13

20k

IS44N25

12

54

6

P D 3

P I AZZ_2P

C40C D 4K7PF

12

R129100R

R28

820R

IS24N25

12

54

6

P D 7

P I AZZ_2P

R401M

R 1

820R

C N 3

FLAT16

13579111315

2468

10121416

R25O R

D60

1N4148

R21M

C43

C M .1uF

12

C54

C D 4K7pF12

C27

C M .1uF

12

R101M

P D 8 P I AZZ_2P

R21

10R

R431M

C 9C D 4K7PF

12

+C23

470/35

U 3

L M 7912

1

2

3V I

GN

D

V O

R 8

820R

R361MC44

C D 4K7pF

1 2

C37

C M .1uF

12

R31 RXE020

R231M

C26

C D 4K7PF

12

FIX4FIX35

1R 75 R 6 / 2 W

C32

C D 1 KpF

12

+C16

100/35

IS94N25

12

54

6

C41

C M .1uF

12

F IX2FIX35

1

R 9

RXE110

C45C D 4K7PF

12

C52C D 1KPF

12

D3

1N4148

R341M

-+

D 1W L 02

R32

5 R 6 / 2 W

R141M

C 6

C D 1KPF

12

IS104N25

12

54

6

D61

1N4148R22150R

P D 6 P I AZZ_2P

R 6 RXE020

R 3

820R

C N 2

DB25 MASC

1 3251224112310229218207196185174163152141

C35C D 4K7pF

12

R2420k

C17C M .1uF

12

C48

C M .1uF

12

C99CD4K7KpF

12

C10

C M .1uF

12

C13C D 1KPF

12

C51C D 1KPF

12

C15C D 1KPF

12

C 3

C D 1KPF

12

C34

C D 1KpF

12

JP3

STRIP20

123456789

1011121314151617181920

C 2

C D 1KPF

12

C31

C M .1uF

12

C49C M .1uF

12

R35

820R

R19 10k

R130100R

C53

C M .1uF

12

C N 5

DB9 MASC

594837261

+

-

U 4 C

TL074

1 0

98

C46

C M .1uF

12

IS84N25

12

54

6

C N 4

DB9 MASC

594837261

R16 10k

C 4

C D 1KPF

12

C14C D 1KPF

12

D62

1N4148

R44

1K

R33

820R

C 5

C D 1KPF

12

C N 1

D B 9 FEM.

594837261

C56C D 1KPF

12

R17

100R

R18 100R

C55C D 1KPF

12

D59

1N4148

C38C D 2 7PF

12

C36C D 4K7pF

12

C39

C D 4K7pF

1 2

+C 7

100/35

IS64N25

12

54

6

R39

5 R 6 / 2 W

R38

RXE020

C18C M .1uF

12 C20

C M .1uF

12

R41

820R

C47

C D 4K7PF

12

C25C M .1uF

12

JP2

STRIP20

123456789

1011121314151617181920

R291M

R41M

C50

C D 4K7PF

12

IS74N25

12

54

6

+C24

100/35

R20

820R

FIX3FIX35

1

P D 2 P I AZZ_2P

P D 5

P I AZZ_2P

C29

C D 4K7pF12


PJ5KPS


SLADPPSPJ5KM2 Bill Of Materials Page1


1 1 CN1 DB9 FEM.2 1 CN2 DB25 MASC3 1 CN3 FLAT164 4 CN4,CN5,CN7,CN9 DB9 MASC5 2 CN6,CN8 DB9 FEM6 1 CN10 CON16AP7 38 C1,C2,C3,C4,C5,C6,C13, CD1KPF

C14,C15,C28,C32,C51,C52,C55,C56,C57,C58,C59,C60,C61,C65,C66,C67,C71,C72,C73,C74,C75,C78,C80,C81,C82,C83,C85,C86,C97,C98,C102

8 3 C7,C16,C24 100/359 25 C8,C10,C17,C18,C20,C22, CM.1uF

C25,C27,C31,C37,C41,C43,C46,C48,C49,C53,C88,C89,C90,C91,C92,C93,C94,C95,C103

10 26 C9,C11,C19,C21,C26,C29, CD4K7pFC30,C35,C36,C39,C40,C42,C44,C45,C47,C50,C54,C63,C64,C69,C70,C76,C77,C79,C84,C101

11 2 C12,C23 470/3512 2 C33,C38 CD27PF13 3 K1,C34,C62 NC14 3 C87,C96,C104 1/2515 1 C99 CD4K7KpF16 1 D1 WL0217 47 D3,D5,D6,D7,D8,D9,D10, 1N4148

D11,D12,D13,D14,D15,D16,D17,D18,D19,D20,D21,D22,D23,D24,D25,D26,D27,D28,D29,D30,D31,D32,D33,D35,D37,D38,D39,D40,D41,D42,D43,D44,D48,D51,D59,D60,D61,D62,D63,D64

18 12 D45,D46,D47,D49,D50,D52, BAT83D53,D54,D55,D56,D57,D58

19 8 FIX1,FIX2,FIX3,FIX4,FIX5, FIX35FIX6,FIX7,FIX8

20 6 F1,F2,F3,F4,F5,F6 DSS-22KpF21 10 IS1,IS2,IS3,IS4,IS5,IS6, 4N25

IS7,IS8,IS9,IS1022 6 JP1,JP2,JP3,JP4,JP5,JP6 STRIP2023 1 JP7 JUMPER24 16 PD1,PD2,PD3,PD4,PD5,PD6, PIAZZ_2P

PD7,PD8,PD9,PD10,PD11,PD12,PD13,PD14,PD15,PD16

25 10 R1,R3,R8,R11,R20,R28,R33, 820RR35,R37,R41

26 10 R2,R4,R10,R14,R23,R29, 1MR34,R36,R40,R43

27 2 R5,R9 RXE110

28 11 R6,R31,R38,R63,R67,R101, RXE020R102,R117,R118,R121,R126

29 3 R7,R32,R39 5R6/2W30 2 R27,R12 2K231 20 R13,R24,R45,R46,R47,R64, 20k

R65,R66,R68,R69,R70,R86,R87,R88,R89,R103,R105,R106,R119,R120

32 37 R15,R17,R18,R30,R48,R50, 100RR52,R54,R55,R56,R57,R59,R61,R71,R73,R74,R76,R78,R80,R82,R83,R85,R91,R93,R95,R96,R97,R107,R109,R111,R112,R113,R115,R129,R130,R131,R133

33 22 R16,R19,R49,R51,R53,R58, 10kR60,R62,R72,R75,R77,R79,R81,R84,R92,R94,R98,R108,R110,R114,R116,R132

34 3 R21,R26,R124 10R35 1 R22 180R36 1 R25 OR37 1 R42 33K/1W38 2 R125,R44 1K39 4 R122,R123,R127,R128 150R40 2 U1,U2 LM781241 1 U3 LM791242 3 U4,U5,U6 TL07443 1 U7 LM324


PJ5KPS

1 / 3Three-phase rectifier - SLRCTPJ5KMC


PJ5KPS


R1

R2

S2

S1

T2

T1

VENTOLA

CLIXSON

VBUS

220VAC

CLIXSON

SM-TRAFO N.C.

RECT

CLIXSON-TRAFO N.O.

CONTAT-S

BREAK FUSE

CONTAT-SS

COM-CONTAT.

RESET

RB25-1K

VBUS

IND2

IND1

\\UT_SRV Three-phase Rectfier

SLRCTPJ5MC

1.1 (D.C.)

PJ5KPS

/Ucelli - Rev. Canazza

11 A3

Tuesday, December 16, 2003

/

��

��

��

��

��

��

��

��

��

��

OC_1OC_1

OC_1OC_1

OC_1OC_1

OC_1

+12V

+12V

D4

IN4004

C10CD1KpF 1 2

FS5

FUSE

FIX8

FIX35

1

C9 F1772-5101 2

FIX17

FIX35

1

C5CD4K7pF

12

DZ1

5V1/1W

CN1

DB9 FEMM.

594837261

FIX19

FIX35

1

C16 F1772-5101 2

C22CD1KpF 1 2

FS7

FUSE

R34K7/2W

FIX15

FIX35

1

R61K

R4

4K7/2W

JP1

KRA

1234

R7

1K

FIX7

FIX35

1

R114K7/2W

RV3

250VLA20

R2110R-5W

FIX9

FIX35

1

+ +-

PM2

IRKJ-56-04

213

DZ4

5V1/1W

IS4

4N2512

54

6

JP2

KRA

1234

FIX12

FIX35

1

R15 100R/2W

R194K7/2W

C8 F1772-5101 2

R10 1M

S1OMRON

13

24

DZ6

5V1/1W

IS6

4N2512

54

6

+ +R

S

K1 TQ2L2

32

4

89

7106

15

C14 F1772-5101 2

FIX5

FIX

1

R17 1M

C1

CD1KpF

1 2

D2

1N4004

JP4

KRA2

12

R14

1K

FIX10

FIX

1

DL1

D5/R

CN2

DB9 MASC.

594837261

DZ2

5V1/1W

R23

1K

C4CD1KpF 1 2

RV4

250VLA20

FIX6

FIX

1

R2 1M

D61N4004C18 F1772-5101 2

FIX11

FIX

1

IS1

4N2512

54

6

C24F1772-5101 2

C13 F1772-5101 2

C7

CD1KpF

1 2

D81N4004

FS3 1A-C28

C15F1772-0.1uF

1 2

C6

CD1KpF

1 2

JP5

KRA6

123456

R9 1M

C20

CD1KpF

1 2

R26

10K/2W

+ +-

PM3

IRKJ-56-04

213

FS2

FUSE

R18

2R2-5W

C19

CD1KpF

1 2RV1250VLA20

R16 1M

R13

1KDZ3

5V1/1W

IS3

4N2512

54

6

FIX1

FIX

1

R24

2R2-5W

C12 F1772-5101 2

+ +-

PM1

IRKJ-56-04

213

D5

1N4004

R22

1K

IS2

4N2512

54

6

R5

1K

DZ5

5V1/1W

IS5

4N2512

54

6

FIX4

FIX35

1

C17 F1772-5101 2

FIX3

FIX35

1

C11CD1KpF 1 2

DL2

D5-R

FS4

FUSE

D7

1N4004

FIX13

FIX35

1

FS1

FUSE

JP3

KRA6

123456

R12

4K7/2W

C3CD1KpF 1 2

R2510R-5W

FIX16

FIX35

1

RV2250VLA20

C23CD1KpF 1 2

D31N4004

D11N4004

FIX2

FIX

1

R1 1M

FS6

FUSE

FIX18

FIX35

1

R20

4K7/2W

C2

CD1KpF

1 2

R84K7/2W

FIX14

FIX35

1

PTC1 N.C.

C21

F1772-5101 2


PJ5KPS


RCTPJ5KMC Bill Of Materials Page1

Item Quantity Reference Part______________________________________________

1 1 CN1 DB9 FEMM.2 1 CN2 DB9 MASC.3 12 C1,C2,C3,C4,C6,C7,C10, CD1KpF

C11,C19,C20,C22,C234 1 C5 CD4K7pF5 10 C8,C9,C12,C13,C14,C16, F1772-510

C17,C18,C21,C246 1 C15 F1772-0.1uF7 1 DL1 D5/R8 1 DL2 D5-R9 6 DZ1,DZ2,DZ3,DZ4,DZ5,DZ6 5V1/1W10 7 D1,D2,D3,D5,D6,D7,D8 1N400411 1 D4 IN400412 6 FIX1,FIX2,FIX5,FIX6, FIX

FIX10,FIX1113 13 FIX3,FIX4,FIX7,FIX8,FIX9, FIX35

FIX12,FIX13,FIX14,FIX15,FIX16,FIX17,FIX18,FIX19

14 6 FS1,FS2,FS4,FS5,FS6,FS7 FUSE15 1 FS3 1A-C2816 6 IS1,IS2,IS3,IS4,IS5,IS6 4N2517 2 JP2,JP1 KRA18 2 JP3,JP5 KRA619 1 JP4 KRA220 1 K1 TQ2L221 3 PM1,PM2,PM3 IRKJ-56-0422 1 PTC1 N.C.23 4 RV1,RV2,RV3,RV4 250VLA2024 6 R1,R2,R9,R10,R16,R17 1M25 7 R3,R4,R8,R11,R12,R19,R20 4K7/2W26 7 R5,R6,R7,R13,R14,R22,R23 1K27 1 R15 100R/2W28 2 R18,R24 2R2-5W29 2 R25,R21 10R-5W30 1 R26 10K/2W31 1 S1 OMRON


PJ5KPS

1 / 6Control unit CPU board - SLCCUPJ5KM2


PJ5KPS


A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

P.B. On

Anlg InAnlg In

P.B. Up

P.B. Esc

P.B. Off

Input

P.B. Stdby

INPUT

Input

P.B. Ok

P.B. Down

OUTPUT

Input

RST

BDM

VARIE VARIE

\ \UT_SRV C O R E C O N T ROL UNIT

SLCCUPJ5KM2

REV B - 1.0(DC)

P J 5 K P S - Scheda CCU

<OrgAddr1>

CSCCUPJ5KM2

Gr ip tech - Rev. : Canazza 07/10/2002

31 A3

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

C C U _OUT

C C U _OUT

A C K _ O NA C K_STDBYA C K_OFFA C K _ PLA C K _EXCTA C K _AM

F A ULTW A I TW A R NP D 1PD2PD3PD4

A C K _ N PA C K _ R I S 1ACK_RIS2ACK_RIS3ACK_RIS4

C S A 0CSA1CSA2

M U T E 1MUTE2

O N _ O F FC O A X

S T D B YS C L KM O SIR X D0TXD0

R X D 1T X D 1

D E 0DE1

A U D _ A L R MV R EF

L O C

S T D B Y B U S

+5V+12V

C L KC L K _ L O C O N _ T S T

O F F _ T S TP L _ T S T

A M _ T S TR S T _ A L _ T S T

S T D B Y _ T S T

G N D _ E A R T HP B O K_TST

P B U P _ TSTP B D W _TSTP B E S C _TST

N P _ T S T

M A I N _ E X C T

I R Q _ A L R _ O U T

C C U _ I N

CCU_IN

P B _ R S T_ALP B _PLP B _ O F FP B _STDBYP B _ O NPB_AM_EXCC H G _ M RP B _ N PR I S 1R I S 2R I S 3R I S 4

P B _ E S CP B _ O KP B _ U PP B _ D W

F _ E X C T 1F_EXCT2

E X T _ I N TA U S _ I N T

S T D B Y _ I NA L R _ I R Q

L O C

L O A DI N P U T

MAINS

S T D B Y B U S

+5V+12V

-12V

O N _ T S T

R S T _ A L _ T S T

O F F _ T S TS T D B Y _ T S T

P L _ T S TA M _ T S T

G N D _ E A R T HN P _ T S T

P B E S C _TSTP B D W _TSTP B U P _ TSTP B O K_TST

C H G _ M R

P B _ O F FCLK

B K G D

P B _ R S T_AL

MUTE1

PA2

F_EXCT2

D E 1

P B _STDBY

PB_AM_EXC

PA5

COAX

B K G D

A1

F_EXCT1

V D D1

S C L K

PA1

L O C

V F P

LGT

D E 0

RST

P B _ O N

L O A D 1

PA4

V D D A D

A L R _IRQ

S T D B Y

P B _ D W

M O SI

PA0

I N P UT1

PA3

S T D B Y _ IN

P B _ U P

MAINS

R S T

R / W

P B _OK

PA7

R I S 2

EXT_INT

SS_

P B _ E SC

C S D

R I S 1

P B _PL

PA6

MUTE2

V F P

PA1

R D _ D IS

PA5

C L K 0

PA3PA2

PA6

C S D

PA0

C L K 1

PA7

PA4

A0

D 1

D7

D0

D6

D2

D4D5

D3

D1

D0

D7

D1

D3

D 6

D4

D 6

D3

D 5

D2

D 6

D4

D2

D0

D2D1

D3

D7

D 1

D3

D6

D 2

D0

D 7

D7

D2

D 3

D6

D5

D7

D1

D 5

D5

D4D5

D 4

D4

C L K 2

SS_

C S A 1CSA2

CSA0

CLK2

CLK0CLK1

R / WR D _ D IS

A1

R S T

D0

D 0

LGT

V R EF

RST

SL1

TXD0R X D0

TXD1R X D1

A C K _ O NA C K_STDBYA C K_OFFA C K _PL

A C K _EXCTA C K_AM

FAULTW A I TW A R N

P D 1P D 2P D 3P D 4

ACK_RIS1ACK_RIS2ACK_RIS3ACK_RIS4

I N P UT1 L O A D1

A C K _ O NA C K_STDBYA C K_OFFA C K _ PLA C K _EXCTA C K _AM

FAULTW A I TW A R NP D 1PD2PD3PD4

A C K _ N PA C K_RIS1A C K_RIS2A C K_RIS3A C K_RIS4

C S A 0C S A 1C S A 2MUTE1MUTE2

COAXS T D BYS C L K

M O SIR X D0TXD0

R X D1TXD1D E 0DE1

A0

W R _DIS

R/W

A0

W R _DIS

P B _ E SC

A U D _ A L R M

A U D _ A L R MV R EF

SL2

L O C

R I S 1S T D B Y _IN

L O A D

MAINS

P B _ UP

P B _ N P

EXT_INT

P B _ O F F

R I S 3

PB_AM_EXC

PB_OK

P B _STDBY

P B _ R S T_ALP B _PL

C H G _ M R

P B _ O N

R I S 4

R I S 2

P B _ D W

F_EXCT1A L R_IRQ

L O C

I N P U T

S T D B Y B U S

S T D B Y B U S

V D D A D

O N _ OFF

O N _ OFF

A U S _INT

A U S_INT

C L KC L K _ L O C

C L K

ON_TSTSTDBY_TSTOFF_TSTPL_TSTAM_TSTRST_AL_TST

OFF_TST

RST_AL_TST

STDBY_TST

AM_TST

O N _ TST

PL_TST

MISO

I N P U T

L O A D

O N _OFF

MAIN_EXCTIRQ_ALR_OUT

S T D BY LGT COAX

IRQ_ALR_OUTMAIN_EXCTM U TE1 M U TE2

V D D2 V D DX1

P B _ N P

TXD1 R X D1 R X D 0TXD0

A C K _ N P

R I S 3R I S 4

S L V _ C U

SL2

SL1

NP_TST

P B E S C _TSTP B D W _TSTP B U P _ TSTP B O K_TST

P B D W _TSTP B U P _ TST

P B E S C _TST

P B O K_TST NP_TST

MISO

S C L KM O SI

V R EF

MAIN_EXCT

C S D

C L K _ L O C

S L V _ C U

C S A 3

I R Q

S C L KM O SIMISO

C S A 3

V D D1

RST

V D DX2V D DX1

V D DX2

V D D2

RST

F_EXCT2

I R Q

C L K

DE1

IRQ_ALR_OUT

V F P

RST

RST

RST

+5V+12V

+5V-12V

+12V

+5V

-12V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+12V

+5V

+12V+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V+5V

+5V

+5V

+5V

+5V

+5V

+5V+5V

+5V

+5V

R1410K

C 4

C M 2 2 pF

C16C M .1uF

12

U5A

74HC139

23

1

4567

8

16

AB

G

Y 0Y1Y2Y3

G N D

VC

C

R3310K

R3210K

C24C M .1uF

12

U39

M C 3 4064

2

31

V C C

G N D/ R S T

U 7

74LS273

3478

13141718

111

256912151619

20

10

D 1D2D3D4D5D6D7D8

C L KC L R

Q 1Q2Q3Q4Q5Q6Q7Q8

VC

C

G N D

Q3BC237

1

23

R22810K

R1

330K

C99CM22pF

12

R 5

X22R

C14C M .1uF

12

U 2 E40106

1 110

C29C M .1uF

12

JP7

JUMPER-2

1 2

R2610K

U 9

74LS273

3478

13141718

111

256912151619

20

10

D 1D2D3D4D5D6D7D8

C L KC L R

Q 1Q2Q3Q4Q5Q6Q7Q8

VC

C

G N D

C102C M .1uF 1

2

R234

10K

R1910K

R235

220K

U 6

74LS273

3478

13141718

111

256912151619

20

10

D 1D2D3D4D5D6D7D8

C L KC L R

Q 1Q2Q3Q4Q5Q6Q7Q8

VC

C

G N D

R239

100K

C28C M .1uF

12

FIX1FIX35

1

C17C M .1uF

12

R2910K

C101C M .1uF

12

R12

47K

C9810-40pF

231

U 3MC68HC912-D60-CPV8

7 0

71

72

69

74

86

67

87

76

7

78

4

15

68

80

73

82

16

84

75

5

105

77

17

79

6

81

18

83

89

104

103

90

102101

91

10099

92

98

93949596

57

39

58

56

59

35

60

55

61

41

62

54

63

52

64

53

38

51

24

50

37

49

34

36

33

25

32

2627

47

28293031

4844

46

4345

8588

12 6514 66

107

4210

640

97

1322212019111098

321112111110109108

23

P A D 1 0

PAD01

PAD11

PAD00

PAD12

V R H 1

VRH0

V R L 1

P A D 1 3

P T 3

P A D 1 4

P T 0

PT4

V R L 0

P A D 1 5

PAD02

PAD16

P T 5

P A D 1 7

PAD03

P T 1

R x C A N

P A D 0 4

P T 6

P A D 0 5

P T 2

P A D 0 6

P T 7

P A D 0 7

P S 0

T x C A N

P C A N 2

P S 1

P C A N 3PCAN4

P S 2

P C A N 5PCAN6

P S 3

P C A N 7

P S 4PS5PS6PS7

PA0

PE4

PA1

PE0

PA2

P H 4

P A 3

PE1

PA4

P H P U D

P A 5

PE2

PA6

P H 0

P A 7

PE3

PE5

P H 1

P B 0

P H 2

P E 6

P H 3

PH5

P E 7

P H 6

P B 1

P H 7

P B 2PB3

E X T A L

P B 4PB5PB6PB7

X T A LX F C

R S T

VD

DP

LL

VS

SP

LL

VD

DA

DV

SS

AD

VD

D1

VDD

2V

SS

1VS

S2V

DD

X1

VDD

X2V

SS

X1

VSSX

2V

FP

P G P U DP G 0PG1PG2PG3PG4PG5PG6PG7

P P 0PP1PP2PP3PP4PP5PP6PP7

B K G D

Y 2

32KHZ

C11C M .1uF

12

C27C M .1uF

12

D21BAT83

C93

C M .1uF

12

R231

10K

R230

10K

R23

10K

R3110K

R2210K

R32K2

R22610K

C9X C M10pF

12

R 4

8 7 W -20K

13

2

R2810K

D 3LM336-5.0V

2

3

1

R23810K

JP3

J U MPER 2

12

R13 10K

C10X C M 10pF

12

U1

G M 2 4 123DSLL C D D I S P LAY

1 55

4

789

1011121314

17

2

3

2122

6

1

16

1918

20

C ER D

C / D

D 0D1D2D3D4D5D6D7

- 1 5 V

+ 5 V

V 0

AK

W R

G N D

R S T

F SM D 2

F G

R243

10K

FIX2FIX35

1

R1610K

+C 6

1/25

R2510K

R242

10K

R237

10R

R30

100R

R11

47K

Y 1

14.745MHz

U 2 D

40106

98

JP2

STRIP 5X2

123456789

10

C18C M .1uF

12

Q1

I R F D 1 20

C 7

CM10pF

12

R24

10K

+C201/25

R 610K

C12C M .1uF

12

D22B A T83

R2010K

+C21

1/25

C 3C M .1uF

12

J1

135

246

+++

+++

+C22

1/25

U 4

74HC244

2468

11131517

119

181614129753

20

10

1 A 11A21A31A42A12A22A32A4

1 G2G

1 Y 11Y21Y31Y42Y12Y22Y32Y4

VC

C

G N D

R8

10K

+C23

1/25

D23B A T83

TP1

TP

1

R241

820K

U8B

74HC139

1 413

15

1211109

AB

G

Y 0Y1Y2Y3

FIX3FIX35

1

U 2 A40106

1 2

147

U 5 B 74HC139

1 413

15

1211109

AB

G

Y 0Y1Y2Y3

R1710K

C 8

C M .1uF

12

C1C M 1 0 pF

1 2

C100

C M .1uF

1 2

R910K

C19C M .1uF

12

BT1

3,6V

12

U 2 B

40106

3 4

R22710K

R7 10K

R2710K

JP4

J U MPER 2

12

C2 CM22pF

C13X C M10pF

12

C15C M .1uF

12

R233

X10KR3410K

D 1B A V99B

1

3

2

R240

100R

R1810K

R15 10K

JP1S T R IP 2

12

R23610 M

R244

100K

U 2 C40106

5 6

R2110K

U 2 F40106

1 312

C 5 C M .1uF

12

C26C M .1uF

12

U8A

74HC139

23

1

4567

8

16

AB

G

Y 0Y1Y2Y3

G N D

VC

C

R 210K

R229

10K

U38

X-LM809

3

12

V C C

G N D/ R S T

R232

10K

+C25

1/25

R10

10K

U40

CD68HC68T1M

12345678910

20191817161514131211

C L K O U T/ C P U R

INTN C

S C KM O S IMISO

C EV S SPSE

V D DX T A L O U TX T A L I NN CV B A TV S Y SN CNCL I N E/ P O R

R24510K

C S D

R/W

+5V

+12V

V R EF

G N D _EARTH


PJ5KPS


A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

ON

STDBY

LOCAL

REMOTE

OFF

POWERLOWER

ALARMRESET

AUT/MAN ECXT

ESC

OK

RS232

UP

DW

NOM.POWER

INTERLOCK


SLCCUPJ5KM2

REV B - 1.0 (DC)

PJ55000MC

<>

C S CCUPJ5KM2

Gr ip tec - Rev. : Canazza 07/10/2002

32 A3

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

O N _ R EM

STDBY_TST

STDBY_REM

L O C _ SEL

PL_REM

O F F _ R E M

AM_TST

L O C _ SEL

RST_AL_REM

A M _REM

C H G _ M R _ R EM

R I S 3_ IN_REM

R I S 4_ IN_REM

AUS_INT_REM

F_EXCT2_REM

EXT_INT_REM

F_EXCT1_REM

RIS1_ IN_REM

RIS2_ IN_REM

O N _ R EMSTDBY_REM

O F F _ R E MPL_REMA M _REM

N P _ R E MC H G _ M R _ R EM

R I S 2_ IN_REM

R I S 3_ IN_REMR I S 4_ IN_REM

L O C _ SELA L R_ IRQBUSF_EXCT2_REM

L O A D + I N P +

ALR_ IRQBUS

L O A D +

I N P +

L O C _ SEL

L O C _ SEL

L O C _ SEL

OFF_TST

RST_AL_TST

RST_AL_REM

F_EXCT1_REM

PL_TST

O N _ TST

L O C _ SEL

N P _ R EM

R I S 1_ IN_REM

AUS_INT_REM

S T D B Y B U S

MAINS_BUS

MAINS_BUS

EXT_INT_REM

+12V

-12V

-12V

+12V

+5V

+5V

-12V

-12V

+5V

+5V

+12V

+12V

+12V

+12V

+12V

+12V +12V

+5V

+12V

+5V

-12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

R106 10k

C48C M .1uF

12

C37

C M .1uF

12

C53C M .1uF

12

U11B

40106

34

R118

47K

U15B TLP521-43

4

14

13

U 1 8 C TLP521-45

6

12

11

D11

B A V99B1

3

2

C38C M .1uF

12

R114 2K2

R76

47K

R92

1K5

R43

1K5

R66 2K2

R10110K

U 1 0 D TLP521-47

8

10

9

R53

1K5

+

-

U16A

LM258

3

21

84

R94 33K

U 1 1C

40106

56

R68

1K5

C45C M .1uF

12

S12B3F

13

24

U 1 1F

40106

1 312

S3

S W S P D T

21

3

R89 10k

R120 2K2U18A

TLP521-41

2

16

15

U10B TLP521-43

4

14

13

C46C M .1uF

12

R73 2K2

R81

33K

S5B3F

13

24

DL2

L E D-D5

R37

1K5

R99

47K

U18B TLP521-43

4

14

13

C52C M .1uF

12

U 1 1D

40106

98

C44C M .1uF

12

U14A TLP521-4

1

2

16

15

U19A TLP521-41

2

16

15

R40

1K5

R64

1K5

U 1 7D

40106

98

R86

1K5

U12A

TLP521-41

2

16

15

R107 2K2

C57C M .1uF

12

+

K2

TQ2

89

7

32

41

10

R72

1K5

D 4

B A V99B

1

3

2

R84 2K2

U19B

TLP521-43

4

14

13

U 1 5D TLP521-47

8

10

9

S8B3F

13

24

R80 2K2

R109

1K5

R49

1K5

C54C M .1uF

12

R117 2K2

R45 2K2

U20B

40106

34

U 1 9D TLP521-47

8

10

9

R103 10k

S6

B3F

13

24

R104

47K

R79 1K5

R93 2K2

U10A

TLP521-41

2

16

15

R69

47K

R58

1K5

U15A TLP521-41

2

16

15

U 1 7C

40106

56

R119

1K5

R77 2K2

C32C M .1uF

12

U13A

40106

1214

7

S9

B3F

13

24

R42 2K2

DL4

L E D-D3

C55

C M .1uF

12

R74

47K

J 2

C O N 2 6 A P

13579

1113

2468101214

151719212325

161820222426

+++++++

+++++++

++++++

++++++

R88 10kR87

10K

R41

1K5

C49C M .1uF

12

R67

47K

R65 2K2

D 5

B A V99B

1

3

2

+

K4

TQ2

32

4

89

71

10

R56

1K5

U12B TLP521-43

4

14

13

C34

C M .1uF1

2S4B3F

13

24

C58C M .1uF

12

U 1 2D TLP521-47

8

10

9C47

C M .1uF

12

C56C M .1uF

12

C51CM.47uF

12

R110 2K2

R85

47K

+

-

U16B

LM258

5

67

R82

47K

R38 2K2

R83

1K5

C40

C M .1uF

12

U11E

40106

1 110

U 1 3C

40106

56

R48

1K5

C35C M .1uF

12

C33C M .1uF

12

R78

47K

U 1 2C

TLP521-45

6

12

11

S11B3F

13

24

U14B TLP521-43

4

14

13

C50

C M .1uF

12

U17E

40106

1 110

U20E

40106

1 110

R44

47K

U 2 0D

40106

98

R111 33K

C36

C M .1uF

12

R35 2K2

D 7

B A V99B1

3

2

U 1 0 C TLP521-45

6

12

11

C43C M .1uF

12

U17B

40106

34

DL3

L E D-D5

R105

1K5

+

K1

TQ2

89

7

32

41

10

U20A

40106

12

147

U 2 0F

40106

1 312

U 2 0C

40106

56

C30C M .1uF

12

R98 2K2

R36

47K

R91

47K

U 1 9C TLP521-45

6

12

11

R62

47K

R100

1K5

R47

47K

R39

47K

C59C M .1uF

12

R95

47K

R52 2K2U13B

40106

34

R97

33K

U 1 4D TLP521-47

8

10

9S1B3F

13

24

R54 2K2

C60C M .1uF

12

R63

47K

D 8

B A V99B1

3

2

R75

1K5

R57

47K

R71 2K2

R5110K

R60 2K2

R70

1K5

S7B3F

13

24

R113

1K5

D10

B A V99B1

3

2

R115

47K

C39C M .1uF

12

+

K3

TQ2

32

4

89

71

10

R96

1K5

DL1

L E D-D5

U 1 3D

40106

98

U 1 7F

40106

1 312

C31

C M .1uF

12

R122

2K2

R46

1K5R50

2K2

Q2

B C 2 37

1

23

U 1 3F

40106

1 312

R116

1K5

S2 B3F

13

24

R102 2K2

R59

1K5

R61 2K2

C42C M .1uF

12

U 1 4C TLP521-4

5

6

12

11

U17A

40106

12

147

R112

47K

D 6 1N4004

U 1 8D TLP521-47

8

10

9

U 1 5C TLP521-4

5

6

12

11

S10B3F

13

24

R108

1M

C41C M .1uF

12

U13E

40106

1 110

R55

47K

U11A

40106

12

147

R90 2K2

U 3 6 D

40106

98

R121

47K

P B _ ON

PB_STDBY

PB_PL

P B _ O F F

P B _ R S T_AL

PB_AM_EXC

C H G _ M R

RIS3

RIS4

EXT_INT

R I S 1

A U S_INT

R I S 2

F_EXCT1

F_EXCT2

A L R _IRQ

P B _OK

P B _ E SC

L O C

S T D B Y _ IN

L O AD

I N P UT

S T D B Y B U S

+12V

-12V

+5V

ON_TST

STDBY_TST

OFF_TST

PL_TST

AM_TST RST_AL_TST

G N D_EARTH

P B _ U P

P B _ D W

P B _ N P

P B E S C _TST

P B D W _TST

P B U P _TST

P B OK_TST

NP_TST

MAINS


PJ5KPS


A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

Bus 485Slave

RXD

TXD

RX-INT

TX-INT

TX-BUS

RX-BUS

ON

STDBY

OFF

POWER LOWER

MAN/AUTEXCT

FAULT

WAIT

WARNING

HOLD OUT

NOMPOWER

Bus 485Master


SLCCUPJ5KM2

REV B - 1.0 (DC)

PJ55000MC

<>

C S CCUPJ5KM2

Gr ip tech - Rev. : Canazza 07/10/2002

33 A3

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

A C K _ O N _ O C

A C K_STDBY_OC

A C K _ O F F _ O C

ACK_PL_OC

A C K _ E X CT_OC

A C K _ A M_OC

FAULT_OC

DAC1_OUT

MUTE1_OC

S T D B Y B U S

O N _ O F F _ O C

C O A X_BUS

STR+

TXD1

R X D 1 _485

STR-

DAC2_OUT

DAC4_OUT

DAC3_OUT

DAC5_OUT

DAC6_OUT

C S A 2

S C L K

S C L K

C S A 0

M O SI

S C L KM O SI

M O SI

A U D _ A L R M _ O C

ACK_RIS2_OC

P D 2 _ O C

P D 4 _ O C

A C K _ N P _ O C

P D 1 _ O C

P D 3 _ O C

ACK_RIS1_OC

W A R N _ O C

W A I T _ O C

TXD0

R X D 1

TXD1

R X D 0

TXD1

RXD1_MAX

R X D1

R X D 1 _485RXD1_MAX

C S A 1

D E 1 _ L O C

D E 1 _ L O C

ACK_RIS3_OC

ACK_RIS4_OC

MTR+MTR-

R X D0

TXD0

MTR-STR-

O N _ O F F _ O C

STR+MTR+

A C K _ N P _ O CA C K _ A M_OC

ACK_PL_OC

MUTE2_OCMUTE1_OC

A C K_STDBY_OC

P D 4 _ O CPD3_OC

W A I T _ O CP D 1 _ O C


DAC5_OUTDAC3_OUT

A C K_RIS3_OCA C K_RIS1_OC

DAC1_OUT

MAIN_EXCT_OCC O A X_BUS

ACK_RIS4_OC

A C K _ O N _ O CA C K _ E X CT_OC

DAC4_OUT

O N _ O F F _ O C

ACK_RIS2_OC

DAC6_OUT

DAC2_OUT

P D 2 _ O C

MUTE2_OC

MAIN_EXCT_OC

W A R N _ O CFAULT_OC

A C K _ O F F _ O C

IRQ _ A L R _ O C

IRQ_ALR_OC

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+5V

+5V

+5V

+12V

+12V

+12V

+12V

+12V

+12V

-12V

-12V

-12V

-12V

-12V

-12V

-12V

-12V

-12V

+5V

+5V

+5V

+5V

+5V

+12V

+5V

+5V

+5V

+5V

+12V-12V

+12V+5V

-12V+12V

+12V

-12V

+12V +5V

+12V

+12V

+12V

+12V

R160

22R

R173 10K

R143

22R

R22 4

22R

R18 0

47K

R221

1K5

U22A ULN2004A

1 16

89

U31

SN75176AP

12

34

7

6

58

R OR E

DEDI

B

A

GN

DV

CC

R1231K5

R186100R

U36E

401061 1 10

DL16L E D-D3

U26E

ULN2004A

5 12

R171

22R

R14 1100R

R20310K

U30A

ULN2004A

1 16

89

R191

10K5

R18710K

R162100R

U26B

ULN2004A

2 15

U 3 0D

ULN2004A

4 13

C68

C M .1uF

12

+

-

U21B

TL072

5

67

R168

10K5

R205

22R

DL8L E D-D5

C87

C M .1uF

12

D Z 1 1

12V/1 W

R148

22R

R19 7

22R

R1381K5

U 2 2D

ULN2004A

4 13

U37A ULN2004A1 16

89

U 2 2C ULN2004A3 14

+

-

U27B

TL072

5

67

R212 47K

C72C M 1 0 K pF1

2

R220

1K5

DL7L E D-D5

R154 1K5

R151

22R

R17 2

10K

DL9L E D-D5

DL10L E D-D5

R177

22R

R219

1K5

C90

C M .1uF

12

C96C M .1uF

12

D Z 1

12V/1 W

R214

22R

R169 1K5

U 2 6F

ULN2004A

6 11 DL6L E D-D5

R225

22R

D18

B A V99B1

3

2

R209

22R

C62C M 1 0 K pF1

2

U 3 7D ULN2004A4 13

U32B

ULN2004A

2 15

D Z 3

5V1/1 W

R133

47K

U 3 0F

ULN2004A

6 11

J 3

C O N 2 6 A P

13579

1113

2468101214

151719212325

161820222426

+++++++

+++++++

++++++

++++++

U 3 6 C

401065 6

+

-

U24B

TL072

5

67

R215

22R

R15 6

10K5

U32E

ULN2004A

5 12

C104C M .1uF

12

C105C M .1uF

12

R157

22R

U 3 6F401061 3 12

C66C M .1uF

12

R216

22R

R129

22R

D Z 612V/1 W

R146

10K5R149

10K

D Z 7

5V1/1 W

C69

C M .1uF

12

U26A

ULN2004A

1 16

89

DL13L E D-D5

R127

22R U23

TLV5626

312

6

4

7

85

C SDIS C L K

R E F

O U T A

OUTB

VC

CG

ND

D Z 5

12V/1 W

D Z 8

5V1/1 W

C76C M 1 0 K pF1

2

U25

TLV5626

312

6

4

7

85

C SDIS C L K

R E F

O U T A

OUTB

VC

CG

ND

R222

1K5

R125100R

+ C701/25

R134

10K5R137

10KC63C M .1uF

12

R195 10K

D19

B A V99B1

3

2

R182

22R

U37 GULN2004A

7 10

U 3 0C

ULN2004A

3 14

U 2 6DULN2004A

4 13

C88

C M .1uF

12

U3474HC157

2356

11101413

115

4

7

9

12

16

8

1 A1B2A2B3A3B4A4B

A / BG

1 Y

2Y

3Y

4Y

V C C

G N D

R152

22R

D Z 9

12V/1 W

R153

22R

U29

SN75176AP

12

34

7

6

58

R OR E

DEDI

B

A

GN

DV

CC

R247

22R

R18 4

10K

U 2 2F

ULN2004A

6 11

R206

22R

D Z 4

5V1/1 W

R207

22R

R124

10K

C61

C M .1uF

1 2

R175 1K5

U33LM7805/TO220

2

13

GN

D I NO U T

R135

22R

U28

TLV5626

312

6

4

7

85

C SDIS C L K

R E F

O U T A

OUTB

VC

CG

ND

C91

C M .1uF

12

D15

B A V99B1

3

2

R188

22R

C95

C M .1uF

12

U32GULN200 4A

7 10

R139

22R

U 3 2D

ULN2004A

4 13

U 3 7F

ULN2004A

611

R199

22R

DL1 4L E D-D3

C97C M .1uF

12

U26G

ULN2004A

7 10

R158

22R R15 9

10K

U37B ULN2004A2 15

U22B

ULN2004A

2 15

R1981K5

R218

22R

C94

C M .1uF

12

R164

12K

R190

47K

C73C M .1uF

12

R126

22R

R165

22R

R14 5

47K

R167

47K

R163 1K5

R217

22R

R161

22R

R15 5

47K

DL15L E D-D3

D13

B A V99B1

3

2

+

C83 1/25

R140

22R

U36 B

40106

3 4

+

C86 1/25

+C841/25

R1441K5

R192

22R

+

-

U21A

TL072

3

21

84

R179

10K5R183

22R

U 2 6CULN2004A

3 14

C80CM27pF

12

R201

22R

U22 E

ULN2004A

5 12

+C85

1/25

D20B A V99B

1

3

2

R20822R

+

-

U27A

TL072

3

21

84

R21122R

U35

ICL232S O 16W

1

34

5111012

9

2

6

147138

1615

C 1 +

C 1 -C 2 +

C 2 -T 1 I NT2INR 1 O U TR2OUT

V +

V-

T 1 O U TT2OUT

R 1 I NR2IN

VC

CG

ND

R142

22RC65

C M .1uF

1 2

DL11L E D-D5

C82C M .1uF

12

R18510K

DL5L E D-D5

D17XBAV99B

1

3

2

DL12L E D-D5

R170

22R

R13 2

22R

C64C M 1 0 K pF1

2

R150100R

U30EULN2004A

5 12

U30G

ULN2004A

7 10

DL17L E D-D3

R136

22R

R18 1

10K

U 3 2F

ULN2004A

6 11

C79

CM27pF

12

J 5

C O N 1 0 A P

13579

246810

+++++

+++++

R189

22R

U32A

ULN2004A

1 16

89

D14

B A V99B1

3

2

C77C M .1uF

12

U22G

ULN2004A

7 10

C92

C M .1uF

12

JP6

J U MPER 2

12

+

-

U24A

TL072

3

21

84

R174100R

R200

22R

R204

22R

R147

22R

R19 6 22R

C67

C M .1uF

12

C103C M .1uF

12

U36A40106

1 2

147

R246

22RU37EULN2004A

5 12

C74C M 1 0 K pF1

2

R210

22R

C89

C M .1uF

12

D Z 12

12V/1 W

R1301K5

R128

22R

R17 6

22R

+ C711/25

R166

22R

R194

10K

D16

B A V99B1

3

2

U 3 7C ULN2004A3 14

J 4

C O N 3 4 A

13579111315171921232527293133

2468

10121416182022242628303234

D Z 212V/1 W

U30B

ULN2004A

2 15

D Z 10

12V/1 W

C75

C M .1uF

1 2

R131

22R

R19 3

22R

R213

22R

U 3 2C

ULN2004A

3 14

C81C M .1uF

12

C78C M 1 0 K pF1

2

R178

47K

R202

22R

A C K _ O N

A C K_STDBY

A C K_OFF

A C K _ PL

A C K _EXCT

A C K _AM

F A ULT

W A I T

W A R N

P D 1

PD2

PD3

PD4

A C K _ N P

A C K_RIS1

A C K_RIS2

A U D _ A L R M

MUTE1

MUTE2

R X D1

TXD1

S T D BY

O N _OFF

COAX V R EF

M O SIS C L K

C S A 2

C S A 0

C S A 1

L O C

+12V

+5V

D E 1

CLK

C L K _ L O C

G N D_EARTH

A C K_RIS3

A C K_RIS4

R X D0

TXD0

D E 0

NP_TST

ON_TST

P B E S C _TSTP B U P _ TST

STDBY_TST

P B O K_TST

PL_TST

OFF_TSTAM_TST

P B D W _TST

RST_AL_TST

S T D B Y B U S

MAIN_EXCT

IRQ_ALR_OUT


PJ5KPS


CSCCUPJ5KM2 Bill Of Materials Page1

Item Q.ty Reference Part_____________________________________________________________________________________________

1 1 BT1 3,6V2 2 C7,C1 CM10pF3 3 C2,C4,C99 CM22pF4 75 C3,C5,C8,C11,C12,C14,C15, CM.1uF

C16,C17,C18,C19,C24,C26,C27,C28,C29,C30,C31,C32,C33,C34,C35,C36,C37,C38,C39,C40,C41,C42,C43,C44,C45,C46,C47,C48,C49,C50,C52,C53,C54,C55,C56,C57,C58,C59,C60,C61,C63,C65,C66,C67,C68,C69,C73,C75,C77,C81,C82,C87,C88,C89,C90,C91,C92,C93,C94,C95,C96,C97,C100,C101,C102,C103,C104,C105

5 12 C6,C20,C21,C22,C23,C25, 1/25C70,C71,C83,C84,C85,C86

6 3 C9,C10,C13 XCM10pF7 1 C51 CM.47uF8 6 C62,C64,C72,C74,C76,C78 CM10KpF9 2 C80,C79 CM27pF10 1 C98 10-40pF11 12 DL1,DL2,DL3,DL5,DL6,DL7, LED-D5

DL8,DL9,DL10,DL11,DL12,DL13

12 5 DL4,DL14,DL15,DL16,DL17 LED-D313 8 DZ1,DZ2,DZ5,DZ6,DZ9,DZ10, 12V/1W

DZ11,DZ1214 4 DZ3,DZ4,DZ7,DZ8 5V1/1W15 14 D1,D4,D5,D7,D8,D10,D11, BAV99B

D13,D14,D15,D16,D18,D19,D20

16 1 D3 LM336-5.0V17 1 D6 1N400418 1 D17 XBAV99B19 3 D21,D22,D23 BAT8320 3 FIX1,FIX2,FIX3 FIX3521 1 JP1 STRIP 222 1 JP2 STRIP 5X223 3 JP3,JP4,JP6 JUMPER 224 1 JP7 JUMPER-225 1 J1 BDM26 2 J3,J2 CON26AP27 1 J4 CON34A28 1 J5 CON10AP29 4 K1,K2,K3,K4 TQ230 1 Q1 IRFD12031 2 Q3,Q2 BC23732 1 R1 330K

33 59 R2,R6,R7,R8,R9,R10,R13, 10KR14,R15,R16,R17,R18,R19,R20,R21,R22,R23,R24,R25,R26,R27,R28,R29,R31,R32,R33,R34,R51,R87,R88,R89,R101,R103,R106,R124,R137,R149,R159,R172,R173,R181,R184,R185,R187,R194,R195,R203,R226,R227,R228,R229,R230,R231,R232,R234,R238,R242,R243,R245

34 27 R3,R35,R38,R42,R45,R50, 2K2R52,R54,R60,R61,R65,R66,R71,R73,R77,R80,R84,R90,R93,R98,R102,R107,R110,R114,R117,R120,R122

35 1 R4 87W-20K36 1 R5 X22R37 33 R11,R12,R36,R39,R44,R47, 47K

R55,R57,R62,R63,R67,R69,R74,R76,R78,R82,R85,R91,R95,R99,R104,R112,R115,R118,R121,R133,R145,R155,R167,R178,R180,R190,R212

38 8 R30,R125,R141,R150,R162, 100RR174,R186,R240

39 40 R37,R40,R41,R43,R46,R48, 1K5R49,R53,R56,R58,R59,R64,R68,R70,R72,R75,R79,R83,R86,R92,R96,R100,R105,R109,R113,R116,R119,R123,R130,R138,R144,R154,R163,R169,R175,R198,R219,R220,R221,R222

40 4 R81,R94,R97,R111 33K41 1 R108 1M42 57 R126,R127,R128,R129,R131, 22R

R132,R135,R136,R139,R140,R142,R143,R147,R148,R151,R152,R153,R157,R158,R160,R161,R165,R166,R170,R171,R176,R177,R182,R183,R188,R189,R192,R193,R196,R197,R199,R200,R201,R202,R204,R205,R206,R207,R208,R209,R210,R211,R213,R214,R215,R216,R217,R218,R224,R225,R246,R247

43 6 R134,R146,R156,R168,R179, 10K5R191

44 1 R164 12K45 1 R233 X10K46 1 R235 220K47 1 R236 10M48 1 R237 10R49 2 R239,R244 100K


PJ5KPS


50 1 R241 820K51 11 S1,S2,S4,S5,S6,S7,S8,S9, B3F

S10,S11,S1252 1 S3 SW SPDT53 1 TP1 TP54 1 U1 GM24123DSL55 6 U2,U11,U13,U17,U20,U36 4010656 1 U3 MC68HC912-D60-CPV857 1 U4 74HC24458 2 U5,U8 74HC13959 3 U6,U7,U9 74LS27360 6 U10,U12,U14,U15,U18,U19 TLP521-461 1 U16 LM25862 3 U21,U24,U27 TL07263 5 U22,U26,U30,U32,U37 ULN2004A64 3 U23,U25,U28 TLV562665 2 U31,U29 SN75176AP66 1 U33 LM7805/TO22067 1 U34 74HC15768 1 U35 ICL23269 1 U38 X-LM80970 1 U39 MC3406471 1 U40 CD68HC68T1M72 1 Y1 14.745MHz73 1 Y2 32KHZ


PJ5KPS

1 / 3Control unit motherboard - SLCCU1PJ5KM2


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

BUS CU

MASCHIO?

DISS. A TELAIO

NOSWAP

NOSWAP

NOSWAP

J3

PJ5KMC

<Project Code>

1

<Author Name>

CONTROL UNIT BACK BOARD

CSCCU1PJ5KM2

<Path PC>

<Path File>

21/03/02

A31

2

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

W A R N _ O C

MUTE1_OC

A U D _ A L R M _ OC

C B 7

CB1 1

C B 1 7

C B 1 4

C B 2 1

C B 6

CB9

CB1

CB4

CB3

CB1 9

C B 1 8

C B 1 5

C B 1 3

C B 1 2

C B 1 6

C B 2

VEXT

S T D B Y _ R E M

R I S 4_ IN_REM

C H G _ M R _ R EM

R I S 3_ IN_REM

O F F _ R E M

PL_REM

A M _REM

O N _ R E M

R I S 1_ IN_REM

AUS_INT_REM

RST_AL_REM

F_EXCT2_REM

L O A D+

INP+

EXT_INT_REM

M U T2

MUTE1_OC

MUT_C

M U T1

MAINS_BUS2

MTR+

RST_SAFE2

COAX2

C A 9

CA1

CA6

A C K _ O N _ O C

DAC1_OUT

C A 2 1

C A 7

CA2

CA1 5

DAC6_OUT

DAC2_OUT

A C K _ O F F _ O C

ACK_RIS2_OC

P D 4 _ O C

MTR-

STR+

STR-

V N S

VEXT

NP_TST

STDBY_TST

PL_TST

AM_TST

P B E S C _TST

P B O K_TST

P B D W _TST

C A 2 3

C A 2 3

C A 5CA6CA3CA4CA1CA2CA1 6C A 1 7C A 1 4C A 1 5C A 2 2C A 1 8C A 1 9C A 2 0C A 2 1C A 1 1C A 9CA8CA7CA1 3C A 1 2C A 1 0

C B 9

CB1 5

C B 2 3

C B 6

CB7

CB8

CB1 0

C B 1 2

C B 1 3

C B 1 4

C B 2 0

C B 4

CB3

CB2CB5

CB2 2

C B 1 9

C B 1 1

C B 1

CB2 4

C B 1 7

RST_SAFEC C 12

MAINS_BUSMAINS_BUS2

O N _ O F F _ O CO N _ R E LE

MUTE2_OC

MUT_C MUT_C2

MUT_C2MUT_11MUT_22

B O B_11B O B_22

B O B2B O B1B O B4B O B3

F_EXCT1_REM

F_EXCT1_REM

B O B_44F_EXCT2_REMB O B_33

B O B_22B O B_11

B O B_44B O B_33

VEXT

P B U P _ TST

C C 2

CC5

CC6

CC7

CC8

CC9

C C 10

C C 11

C C 12C C 7C C 9C C 5C C 10C C 11

C C 2C C 8C C 3C C 4

C A 1 2

C B 2 2MUTE2_OC

M U T1

FAULT_OC

ACK_RIS3_OC

C O A X_BUS

C A 4

B O B_33BOB3

B O B_22

ACK_RIS4_OC

C A 8

O N _ R E L E

MUT_11

DAC3_OUT

COAX2

C B 2 3

A C K _ P L _OC

W A I T _ O C

C C 4

B O B_44

P D 2 _ O C

BOB2

C A 1 4

A C K _ E X CT_OC

S T DBYBUS2

ALRIRQ_BUS2

C C 1

P D 1 _ O C

L O C _ SEL

B O B_11BOB1

RST_AL_TST

C A 1 1

C B 2 0

MUT_22

ALRIRQ_BUS2

ON_TST

C A 1 9

C A 1 6

C A 1 7

C A 1 0

S T DBYBUS1

A C K _ N P _ O C

S T DBYBUS2

BOB4

C A 2 0

DAC5_OUT

OFF_TST

R I S 2_ IN_REM

C A 1 3

N P _ R E M

C A 3

CA2 2

O N _ R E L E2

M U T2

P D 3 _ O C

A C K_STDBY_OCC B 8

O N _ R E L E 2

C C 3

DAC4_OUT

ACK_RIS1_OC

C A 5

A C K _ A M_OC

C B 5

VEXT

A L R_ IRQBUS

C A 1 8

C B 1 0

INP+

C C 1

L O A D+

C B 2 4 MAINS_BUS

C B 1 8

S T D BYBUS1S T D B Y B U S

V N S

MAIN_EXCT_OC

VEXT

VEXT

C B 2 1

C B 1 6

C C 6

RST_SAFE2 RST_SAFE

O N _ O F F _ O C

S T R-MTR+MTR-STR+

P D 2 _ O C

A C K _ A M_OCC O A X_BUS

P D 1 _ O C

A C K_RIS3_OCDAC2_OUTDAC4_OUT

MUTE1_OC

A C K _ N P _ O C

MAIN_EXCT_OC

DAC3_OUT

A C K _ E X CT_OC

MUTE2_OC

W A I T _ O C

A C K _ O F F _ O C

DAC1_OUT

DAC5_OUT

A C K _ O N _ O C

DAC6_OUT

P D 3 _ O C

FAULT_OC

A C K_RIS1_OCW A R N _ O CACK_RIS2_OC

P D 4 _ O C


ACK_PL_OC

ACK_RIS4_OC

O N _ O F F _ O C

A C K_STDBY_OC

RIS1_ IN_REM

ALR_ IRQBUS

STDBY_REMMAINS_BUS

F_EXCT1_REMN P _ R EM

L O C _ SEL

RST_AL_REMAM_REM

RIS4_ IN_REM

S T D B Y B U S

L O A D+

PL_REM

RIS3_ IN_REM

AUS_INT_REM

O N _ R EM

INP+

RIS2_ IN_REM

OFF_REM

EXT_INT_REM

F_EXCT2_REM

C H G _ M R _ R EM

MAIN_EXCT_OC

IRQ_ALR_OC

IRQ _ A L R _ O C

+12V

+5V

+5V

-12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V-12V+12V

-12V

+5V

+12V

C 1 0C M .1uF

12

+C12

1000/35

f

F16 D S S 3 06

1 3

2

f

F56 D S S 3 06

1 3

2

C 3C M .1uF

12

C25C D 4K7PF

12

D Z 1

15V 1/2W

U 1

LM78121

2

3V I

GN

D

V O

C1C M 4 K 7 pF

12

C21

C D 2 7PF

12

fF14 D S S 3 06

1 3

2

f

F32 D S S 3 06

1 3

2

f

F51 D S S 3 06

1 3

2

fF68 D S S 306

1 32

f

F 7 5D S S 3 06

1 3

2

R16

10R

f

F39 D S S 3 06

1 3

2

+

C19220/25

U 2

LM78121

2

3V I

GN

D

V O

D Z 3

15V 1/2W

R10

10K

C4C D 2 7PF

12

D8

1N4148

f

F61 D S S 3 06

1 3

2

R1810K

f

F42 D S S 3 06

1 3

2

fF45 D S S 3 06

1 3

2

fF 6 D S S 3 06

1 3

2

K2

Z F H - 12V-H1

1 311

9

46

81

16

fF49 D S S 3 06

1 3

2

C N 1

FLAT16

13579111315

2468

10121416

f

F66 D S S 3 06

1 3

2

f

F15 D S S 306

1 3

2

P6

DB15 FEMM.

815

714

613

512

411

310

291

R 9 220R

C 8

C M 4 K 7 pF1 2

C 5 C M 4 K 7 pF

1 2

f

F40 D S S 3 06

1 3

2

R13

10R

+

C13

1000/35

f

F 3 D S S 3 06

1 3

2

f

F26 D S S 306

1 3

2

f

F11 D S S 3 06

1 3

2

P1

DB25 FEM

1 325122411231022

921

820

719

618

517

416

315

214

1

D Z 2

15V 1/2W

P2

C O N N E CTOR DB9M a s chio

594837261

Q1BC488

FIX2FIX35

1

D 2

1N4148

K1

Z F H - 12V-H1

1 311

9

46

81

16

P4

DB25 MASC

1 325122411231022

921

820

719

618

517

416

315

214

1

J 1

C O N 2 6 A P

13579

1113

2468101214

151719212325

161820222426

+++++++

+++++++

++++++

++++++

D 3

1N4148

+C14

100/35

f

F50 D S S 306

1 3

2

D 9

1N4148

D Z 4

15V 1/2W

fF 4 D S S 3 06

1 3

2

D 1 0

1N4148

fF72 D S S 3 06

1 3

2

S1

T2D/2/G/X21

3

54

6

K3

Z F H - 12V-H1

1 311

9

46

81

16

fF33 D S S 3 06

1 3

2

fF54 D S S 3 06

1 3

2

f

F34 D S S 3 06

1 3

2

f

F65D S S 3 06

1 3

2

D 1 6 1N4148

R 3

10K

R 8RXE040

K5

Z F H - 1 2V-H1

1 311

9

46

81

16

fF 7 4 D S S 3 06

1 3

2

R 5x 1 2 0R

fF12 D S S 3 06

1 3

2

R14

180R

f

F71 D S S 3 06

1 3

2

C 2C M 4 K 7 pF

12

J 3

C O N 2 6 A P

13579

1113

2468101214

151719212325

161820222426

+++++++

+++++++

++++++

++++++

FIX8FIX35

1

f

F43 D S S 3 06

1 3

2

f

F76 D S S 3 06

1 3

2

f

F47 D S S 3 06

1 3

2

P5

DB9 FEMM.

594837261

R 1 2RXE110

F 7 7BL02

C15

C M .1uF

12

F IX3FIX35

1

U3

UA78S40DC

91213141516

346721

8

510

11

CP

+

CT

VC

P

IPK

DC

SC

SE

OU

TI+I-AK

R E F

V C AC P -

G N D

FIX1FIX35

1

C23

CM100pF

12

C20C D 4K7PF

12

f

F23 D S S 306

1 3

2

D 1 51N4148

R191R0

C6

C D 2 7PF

12

f

F55 D S S 3 06

1 3

2

f

F 8 D S S 3 06

1 3

2

R20

100RR21

1K

f

F21 D S S 3 06

1 3

2

R11

1K8

fF41 D S S 3 06

1 3

2

C 2 7C M 4 K 7 pF

1 2

FIX7FIX35

1

C17

C M .1uF 12

f

F24 D S S 3 06

1 3

2

L1220uH

C11CM.1uF

12

fF59 D S S 3 06

1 3

2

f

F44 D S S 3 06

1 3

2

f

F62 D S S 3 06

1 3

2

JP5

KBW6

123456

+C18

220/25

D4

1N4148

f

F48 D S S 3 06

1 3

2

f

F46 D S S 3 06

1 3

2

D 1 1

B Y 254R15

18K

K4

Z F H - 1 2V-H1

1 311

9

46

81

16

fF37 D S S 3 06

1 3

2

f

F64 D S S 3 06

1 3

2FIX6FIX35

1

fF63 D S S 3 06

1 3

2

JP1

JUMPER3

13

2

fF10 D S S 306

1 3

2

R 4

10R

f

F17 D S S 3 06

1 3

2

FIX4FIX35

1

f

F38 D S S 3 06

1 3

2

R 2RXE020

fF25 D S S 3 06

1 3

2

fF28 D S S 3 06

1 3

2

J P 4

JUMPER3

13

2

f

F52 D S S 3 06

1 3

2

fF57 D S S 3 06

1 3

2

f

F27 D S S 3 06

1 3

2 f

F29 D S S 306

1 3

2

C24

C D 27PF

12

F IX10FIX35

1

+C9

100/35

fF67 D S S 3 06

1 3

2

f

F35 D S S 3 06

1 3

2

C26C D 27pF1 2

F 6 0

BL02

fF 7 D S S 306

1 3

2

D61N4148

D13

1 1 D Q 06

f

F 5 D S S 3 06

1 3

2

C22C M .1uF

12

D5

1N4148

f

F 1 D S S 3 06

1 3

2

C16C M .1uF

12

D14 1N4004

D 1 2

B Y 254

f

F53 D S S 3 06

1 3

2

R 6

10R

fF 2 D S S 3 06

1 3

2

FIX5FIX35

1

f

F30 D S S 3 06

1 3

2

f

F20 D S S 3 06

1 3

2

fF 9 D S S 3 06

1 3

2

R 7

10K

R 1

2R 2 1 /4W

fF73 D S S 306

1 3

2

f

F36 D S S 3 06

1 3

2

f

F70 D S S 306

1 3

2

J P 3

JUMPER3

13

2

D1

1N4148

f

F19 D S S 306

1 3

2

P3C O N N E CTOR DB9M a s chio

594837261

f

F69 D S S 3 06

1 3

2

fF31 D S S 3 06

1 3

2

f

F13 D S S 3 06

1 3

2

FIX9FIX35

1

R 1 7

RXE110

J 2

C O N 3 4 A

13579111315171921232527293133

2468

10121416182022242628303234

fF22 D S S 3 06

1 3

2

f

F58 D S S 3 06

1 3

2

JP2

JUMPER3

13

2

fF18 D S S 3 06

1 3

2

RST_AL_TST

P B D W _TSTP B E S C_TST

STDBY_TST

P B U P _TST

P B OK_TSTOFF_TST

PL_TST

ON_TST

N P _ TST

AM_TST


PJ5KPS


SLCCU1PJ5KM2 Bill Of Materials Page1


1 1 CN1 FLAT162 5 C1,C2,C5,C8,C27 CM4K7pF3 7 C3,C10,C11,C15,C16,C17, CM.1uF

C224 5 C4,C6,C21,C24,C26 CD27pF5 2 C14,C9 100/356 2 C12,C13 1000/357 2 C19,C18 220/258 2 C25,C20 CD4K7PF9 1 C23 CM100pF10 4 DZ1,DZ2,DZ3,DZ4 15V 1/2W11 11 D1,D2,D3,D4,D5,D6,D8,D9, 1N4148

D10,D15,D1612 2 D11,D12 BY25413 1 D13 11DQ0614 1 D14 1N400415 10 FIX1,FIX2,FIX3,FIX4,FIX5, FIX35

FIX6,FIX7,FIX8,FIX9,FIX10

16 75 F1,F2,F3,F4,F5,F6,F7,F8, DSS306F9,F10,F11,F12,F13,F14,F15,F16,F17,F18,F19,F20,F21,F22,F23,F24,F25,F26,F27,F28,F29,F30,F31,F32,F33,F34,F35,F36,F37,F38,F39,F40,F41,F42,F43,F44,F45,F46,F47,F48,F49,F50,F51,F52,F53,F54,F55,F56,F57,F58,F59,F61,F62,F63,F64,F65,F66,F67,F68,F69,F70,F71,F72,F73,F74,F75,F76

17 2 F77,F60 BL0218 4 JP1,JP2,JP3,JP4 JUMPER319 1 JP5 KBW620 2 J1,J3 CON26AP21 1 J2 CON34A22 5 K1,K2,K3,K4,K5 ZFH-12V-H123 1 L1 220uH24 1 P1 DB25 FEM25 2 P2,P3 CONNECTOR DB926 1 P4 DB25 MASC27 1 P5 DB9 FEMM.28 1 P6 DB15 FEMM.29 1 Q1 BC48830 1 R1 2R2 1/4W31 1 R2 RXE02032 4 R3,R7,R10,R18 10K33 4 R4,R6,R13,R16 10R34 1 R5 x120R35 1 R8 RXE04036 1 R9 220R37 1 R11 1K838 2 R12,R17 RXE110


PJ5KPS

1 / 4Parallel interface - SLINTREMPJK5M


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

PJ5KMC

<>

2

CLAUDIO - Rev.: Canazza

INTERFACCIA REMOTA

<Code>

<Path PC>

CSINTREMPJ5KM

8/11/01

A31

1.0 (DC)

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

PJ5K_ELET2

PJ5K_ELET2

+ 1 2 V

C _ R L 3

W A I T

W A R N

D A C 1DAC2DAC3DAC4DAC5DAC6

W A R N _ O C

A M _REM

F_EXCT1_REM

R I S 4_ IN_REM

PL_REM

MUTE2_OC

RST_AL_REM

S T D B Y _ R E M

MAINS_BUS


W A I T _ O C

EXT_INT_REM

O F F _ R E M

AUS_INT_REMMUTE1_OC

R I S 1_ IN_REM

F_EXCT2_REM

R I S 3_ IN_REM

L O C _ SEL

N P _ R E M

O N _ R E M

C H G _ M R _ R EMR I S 2_ IN_REM

L O C _ SEL

W A R N _ O C

MUTE2_OC

MUTE1_OC

MAINS_BUS

W A I T _ O C

EXT_INT_REM

O F F _ R E M

RST_AL_REM

PL_REM

AM_REM

RIS4_ IN_REM

RIS1_ IN_REM

RIS3_ IN_REM

O N _ R EM

N P _ R EM

RIS2_ IN_REM

C H G _ M R _ R EM

F_EXCT1_REM

F_EXCT2_REM

AUS_INT_REM

STDBY_REM

EXT_INT

O F F

A L R _ R S T

PL

R I S 4

R I S 1

R I S 3

RIS2

C H G _ M R

S T D BY

N P

AM

MAINS_BUS


L O C _ SEL

O N

AM

O N

R I S 2

C H G _ M R

S T D BY

F_EXCT2

N PAU S_INT

F_EXCT1

R I S 3

R I S 1

EXT_INTO F F

R I S 4

A L R _ R S T

MUTE1C_MUTE2

MAINS

STR+STR-

STR+

STR-

C_RL3


MUTE1_OC

W A R N _ O C

C _ A U D _ A L A R MA U D _ A L R M

W A R N

W A I T

D A C1D A C2D A C3

D A C5D A C6

C_MUTE1

MUTE2

L O C

D A C2

D A C5D A C6

D A C4

D A C1

D A C3

D A C4

C_RL3

W A I T

A U D _ A L R M

W A R N

C_RL3

M U TE2

C_RL3

C _ A U D _ A L A R M

M U TE1

C_MUTE2

C_MUTE1

MAINS

W A I T _ O C

C _ L O C

C_MAINS

L O C

C_MAINS

C _ L O C

F_EXCT1

A U S_INT

F_EXCT2

PL

MUTE2_OC

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V +12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

C264K7pF

12

C 2

4K7pF

12

R R 9 D2K2

78

C 6

4K7pF

12

O C 1 6

TLP620

1

2

4

3

R R 2 D

47R

78

FIX2

FIX35

1

O C 1 0

TLP620

1

2

4

3

C184K7pF

12

R R 1 3C2K2

56

FIX5

FIX35

1

DL17

D 3 -V

C394K7pF

12

C324K7pF

12

R R 4A

47R

12

C34

4K7pF

12

JP2

JUMPER3

13

2

K5

Z F H - 12V

1 311

9

46

81

16

R R 2A

47R

12

FIX1

FIX35

1

D Z 4

5V6-1W

C154K7pF

12

JP16

KB4

1234

C30

4K7pF

12

JP21

JUMPER3

13

2 R2910R

JP10

JUMPER3

13

2

JP7JUMPER3

13

2

D Z 35V6-1W

JP5

JUMPER3

13

2

K1

Z F H - 12V

1 311

9

46

81

16

JP18

JUMPER3

13

2

C244K7pF

12

DL10D3-V

O C 9

TLP620

1

2

4

3

C124K7pF

12

JP24

JUMPER3

13

2

C334K7pF

12

R R 6 D 1K5

78

R R 3 C

47R

56

C194K7pF

12

C 54K7pF

12

C10

4K7pF

12

JP27JUMPER3

13

2JP47

KB4

1234

R R 4B

47R

34

O C 1 4

TLP620

1

2

4

3

C424K7pF

12

R R 5A 1K5

12

R R 3B

47R

34

JP11JUMPER3

13

2

R R 1 D

47R

78

C38

4K7pF

12

R R 2B

47R

34

O C 8

TLP620

1

2

4

3

K6

Z F H - 12V

1 311

9

46

81

16

D Z 2

12V-1W

JP4

K B 10

12345678910

R R 1 4D2K2

78

JP9

JUMPER3

13

2

C144K7pF

12

F IX3

FIX35

1

DL15D3-V

R2210R

DL5

D 3 -V

DL3

D 3 -V

FIX6

FIX35

1

O C 1 1

TLP620

1

2

4

3

DL11

D 3 -V

R R 6 C 1K5

56

JP26

JUMPER3

13

2

C254K7pF

12

DL16

D 3 -V

C 94K7pF

12

C274K7pF

12

FIX8

FIX35

1

DL9

D 3 -VJP12

KB8

12345678

R R 8 A 1K5

12

C16

4K7pF

12

DL1D3-V

DL22

D 3 -V

O C 1

TLP620

1

2

4

3

JP8

KB8

12345678

JP15JUMPER3

13

2

JP22

KB4

1234

JP6

JUMPER3

13

2

JP48

KB8

12345678

R R 5 C 1K5

56

C41

4K7pF

12

DL14

D 3 -V

K2

Z F H - 12V

1 311

9

46

81

16

C17

4K7pF

12

R R 2 C

47R

56

C404K7pF

12

O C 1 2

TLP620

1

2

4

3

O C 3

TLP620

1

2

4

3

R R 3A

47R

12

JP13

JUMPER3

13

2

P2

D B 9 MASCHIO

594837261

R R 8 C 1K5

56

R R 7 D 1K5

78

DL20

D 3 -V

C204K7pF

12

O C 1 3

TLP620

1

2

4

3

DL18D3-V

R R 4 D

47R

78

D Z 112V-1W

JP28

JUMPER3

13

2

C314K7pF

12

K7

Z F H - 12V

1 311

9

46

81

16

JP3JUMPER3

13

2

R R 4 C

47R

56

R R 1B

47R

34

R2710R

C22

4K7pF

12

JP25

JUMPER3

13

2

K3

Z F H - 12V

1 311

9

46

81

16

RR14B2K2

34

R R 7 A 1K5

12

+C 147/25

JP19JUMPER3

13

2

FIX4

FIX35

1

C284K7pF

12

C 44K7pF

12

O C 6

TLP620

1

2

4

3

R R 8B 1K5

34

C 3

4K7pF

12

JP14

JUMPER3

13

2

R R 3 D

47R

78

C11

4K7pF

12

R R 7 C 1K5

56

R R 1A

47R

12

O C 5

TLP620

1

2

4

3

C374K7pF

12

F IX7

FIX35

1

JP17

JUMPER3

13

2

C 84K7pF

12

C35

4K7pF

12

DL4D3-V

R R 8 D 1K5

78

R R 5 D 1K5

78

R2110R

O C 1 5

TLP620

1

2

4

3

R R 1 4C

2K2

5 6

C364K7pF

12

R R 9B2K2

34

C214K7pF

12

DL2

D 3 -V

C29

4K7pF

12

O C 4

TLP620

1

2

4

3

K4

Z F H - 12V

1 311

9

46

81

16

P1

D B 25 FEMMINA

1 325122411231022

921

820

719

618

517

416

315

214

1

R R 7 B 1K5

34

R R 1 C

47R

56

RR13A2K2

12

R R 5B 1K5

34

DL8

D 3 -V

R R 6A 1K5

12

DL21D3-V

DL6

D 3 -V

DL13

D 3 -V

f

F 1DSS-308

1 3

2

JP1

JUMPER3

13

2

C 7

4K7pF

12

JP23JUMPER3

13

2

DL19

D 3 -V

DL7D3-V

O C 7

TLP620

1

2

4

3

JP20

JUMPER3

13

2

DL23

D 3 -V

DL12

D 3 -V

O C 2

TLP620

1

2

4

3

C134K7pF

12

RR14A2K2

12

R R 6 B 1K5

34

C23

4K7pF

12


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

PJ5KMC

<Project Code>

2

CLAUDIO - Rev.: Canazza

INTERFACCIA REMOTA

CSINTREMPJ5K.DSN

\\UT_SRV

CSINTREMPJ5KM

8/11/01

A32

1.0 (DC)

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

A C K_RIS1

A C K_STDBY_OC

F A ULT_OC

D A C3

C _ RL5

P D 1 _ O C

A C K _P L_OC

D A C4

A C K_RIS4_OC

A C K_RIS3_OC

W A R N

DAC5_OUT

A C K_RIS3

DAC1_OUT

P D 1 _ O C

A C K _ PL

P D 4

DAC4_OUT

A C K_RIS1

A C K _ A M_OC

F A ULT

D A C6

DAC6_OUT

DAC4_OUT

P D 3

DAC5_OUT

D A C1

C _ RL4A C K_RIS4_OC

A C K_RIS1_OC

P D 2 _ O C

A C K _EXCT

DAC3_OUT

DAC5_OUT

DAC3_OUT

FAULT_OC

A C K_RIS4_OC

A C K_RIS2_OC

A C K _ O F F _ O C

P D 2

P D 3 _ O C

A C K _ N P _ O C

DAC1_OUT

C_RL5

DAC3_OUT

A C K _ O F F _ O C

C_RL4

P D 3

A C K _ E X CT_OC

A C K_RIS3

P D 1

P D 4 _ O C

PD4_OC

A C K_STDBY

C_RL5

P D 2

PD4

P D 2 _ O C

C_RL5

A C K _ N P

A C K _ N P _ O C

DAC2_OUT

P D 3 _ O C

A C K_RIS4

C_RL5

A C K_RIS2_OC

DAC1_OUT

A C K _ O N _ O C

C_RL4

A C K_RIS3_OC

A C K _ O N

ACK _AM

DAC6_OUT

P D 1

A C K_OFF

A C K_RIS4

A C K _ E X CT_OC

A C K _ O N _ O C

A C K_RIS3_OC

DAC2_OUT

A C K _STDBY_OC

A C K _ O F F _ O C

A C K_RIS2

A C K _ E X CT_OC

W A I T

A C K_RIS1_OC

A C K _ A M _OC

DAC6_OUT

ACK_PL_OC

DAC4_OUT

DAC2_OUT

C_RL4

C_RL4

A C K_RIS2

A C K _ A M_OC

A C K _ N P _ O C

D A C2

A C K_RIS1_OC

A C K_RIS2_OC

P D 1 _ O C

PD3_OC A C K _ O N _ O C

P D 2 _ O C

PD4_OC

A C K _STDBY_OC

D A C5

A C K_STDBY

C_RL3

A C K _EXCT

C_RL3

C_RL3

C_RL3

A C K _ N P

A C K_AM

C_RL3

A C K _ O N

C_RL3

C_RL3

F A ULT_OC

A C K_OFF

FAULT

C_RL3

ACK_PL_OC

A C K _ PL

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

+12V

R R 1 3D2K2

78

R R 9 C2K2

56

K15

Z F H -12V

1 311

9

46

81

16

+C4547/25

R R 13B2K2

34

C714K7pF

12

DL24D 3 -V

DL38D 3 -V

C694K7pF

12

K22

Z F H -12V

1 311

9

46

81

16

C624K7pF

12

R R 1 2D2K2

78

JP39JUMPER3

13

2

DL26D 3 -V

K10

Z F H -12V

1 311

9

46

81

16

R R 12B2K2

34

C664K7pF

12

JP41JUMPER3

13

2

C644K7pF

12

JP33JUMPER3

13

2

DL31D 3 -V

C724K7pF

12

K23

Z F H -12V

1 311

9

46

81

16

JP36JUMPER3

13

2

JP29JUMPER3

13

2

C594K7pF

12

DL29D 3 -V

R R 1 1D2K2

78

C574K7pF

12

D Z 11B Z W 0 45V8

JP34JUMPER3

13

2

JP37JUMPER3

13

2

D Z 9B Z W 0 45V8

C434K7pF

12

DL27D 3 -V

R60

100R

R R 11B2K2

34

DL36D 3 -V

K20

Z F H -12V

1 311

9

46

81

16

K19

Z F H -12V

1 311

9

46

81

16

C514K7pF

12

R R 1 0D2K2

78

JP40JUMPER3

13

2

K12

Z F H -12V

1 311

9

46

81

16

C504K7pF

12

DL35D 3 -V

R57

100R

D Z 7B Z W 0 45V8

R54

100R

JP42JUMPER3

13

2

R55

100R

C484K7pF

12

C494K7pF

12

D Z 5B Z W 0 45V8

D Z 6B Z W 0 45V8

R R 10B2K2

34

K16

Z F H -12V

1 311

9

46

81

16

D Z 8B Z W 0 45V8

C584K7pF

12

JP45JUMPER3

13

2

DL34D 3 -V

K14

Z F H -12V

1 311

9

46

81

16

DL39D 3 -V

JP31JUMPER3

13

2

C614K7pF

12

C554K7pF

12

DL33D 3 -V

DL32D 3 -V

JP32JUMPER3

13

2

K13

Z F H -12V

1 311

9

46

81

16

DL25D 3 -V

C464K7pF

12

C544K7pF

12

C564K7pF

12

K8

Z F H -12V

1 311

9

46

81

16

C634K7pF

12

K18

Z F H -12V

1 311

9

46

81

16

C654K7pF

12

D Z 12B Z W 0 45V8 C68

4K7pF

12

DL30D 3 -V

JP35

K B 10

12345678910

JP43JUMPER3

13

2

C704K7pF

12

JP46JUMPER3

13

2

K9

Z F H -12V

1 311

9

46

81

16

C534K7pF

12

DL28D 3 -V

R56

100R

JP30JUMPER3

13

2C444K7pF

12

R61

100R

P3

D B 25 MASCHIO

1 325122411231022

921

820

719

618

517

416

315

214

1

C604K7pF

12

K21

Z F H -12V

1 311

9

46

81

16

K11

Z F H -12V

1 311

9

46

81

16

D Z 10B Z W 0 45V8

C524K7pF

12

C474K7pF

12

C674K7pF

12

JP38

K B 10

12345678910

DL37D 3 -V

R R 1 1 C2K2

56

R R 11A2K2

12

R R 12A2K2

12

R R 1 0 C2K2

56

JP44JUMPER3

13

2

R R 1 2 C2K2

56

R R 10A2K2

12

K17

Z F H -12V

1 311

9

46

81

16

R R 9A2K2

12

+12V

W A I TW A R N

D A C1

D A C2

D A C3

D A C4

D A C6

D A C5

C_RL3


PJ5KPS


SLINTREMPJ5KM Bill Of Materials Page1


1 2 C1,C45 47/252 70 C2,C3,C4,C5,C6,C7,C8,C9, 4K7pF

C10,C11,C12,C13,C14,C15,C16,C17,C18,C19,C20,C21,C22,C23,C24,C25,C26,C27,C28,C29,C30,C31,C32,C33,C34,C35,C36,C37,C38,C39,C40,C41,C42,C43,C44,C46,C47,C48,C49,C50,C51,C52,C53,C54,C55,C56,C57,C58,C59,C60,C61,C62,C63,C64,C65,C66,C67,C68,C69,C70,C71,C72

3 39 DL1,DL2,DL3,DL4,DL5,DL6, D3-VDL7,DL8,DL9,DL10,DL11,DL12,DL13,DL14,DL15,DL16,DL17,DL18,DL19,DL20,DL21,DL22,DL23,DL24,DL25,DL26,DL27,DL28,DL29,DL30,DL31,DL32,DL33,DL34,DL35,DL36,DL37,DL38,DL39

4 2 DZ2,DZ1 12V-1W5 2 DZ4,DZ3 5V6-1W6 8 DZ5,DZ6,DZ7,DZ8,DZ9,DZ10, BZW045V8

DZ11,DZ127 8 FIX1,FIX2,FIX3,FIX4,FIX5, FIX35

FIX6,FIX7,FIX88 1 F1 DSS-3089 39 JP1,JP2,JP3,JP5,JP6,JP7, JUMPER3

JP9,JP10,JP11,JP13,JP14,JP15,JP17,JP18,JP19,JP20,JP21,JP23,JP24,JP25,JP26,JP27,JP28,JP29,JP30,JP31,JP32,JP33,JP34,JP36,JP37,JP39,JP40,JP41,JP42,JP43,JP44,JP45,JP46

10 3 JP4,JP35,JP38 KB1011 3 JP8,JP12,JP48 KB812 3 JP16,JP22,JP47 KB413 23 K1,K2,K3,K4,K5,K6,K7,K8, ZFH-12V

K9,K10,K11,K12,K13,K14,K15,K16,K17,K18,K19,K20,K21,K22,K23

14 16 OC1,OC2,OC3,OC4,OC5,OC6, TLP620OC7,OC8,OC9,OC10,OC11,OC12,OC13,OC14,OC15,OC16

15 1 P1 DB 25 FEMMINA16 1 P2 DB9 MASCHIO17 1 P3 DB25 MASCHIO18 4 RR1,RR2,RR3,RR4 47R19 4 RR5,RR6,RR7,RR8 1K520 6 RR9,RR10,RR11,RR12,RR13, 2K2

RR1421 4 R21,R22,R27,R29 10R22 6 R54,R55,R56,R57,R60,R61 100R


PJ5KPS

1 / 3Input splitter and changeover - SLSPLINP5KW1


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

MAIN EXCITER RESERVE EXCITER

\ \UT_SRV RF Sec t i on Inpu t Splitter

CSSPLINP5K W 1

1.0

PJ5KPS

<>

S P LITTER1.DSN

M a u r o U celli 11/09/01

11 A3

� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

M/R

M / R

TL750_Z

R1650_PPR

D 3

H S M S 2800

TL1650_Z

C31n

R1050_PPR

R81 k

TL1750_Z

C51n

D C PLR1D I R _ C P L R

1

2

3

4

7

6

5

TL1850_Z

R34k7

C104n7

C18Cxx

C 21p

TL1950_Z

TL850_Z

R26100_2W

D 4

H S M S 2800

C131n

R 7 1k

R27100_2W

R25100_2W

R28100_2W

C121n

TL5 50_Z

R29100_2W

R30100_2W

C20Cxx

+

K1

TQ2-12V

32

4

89

71

10

R31100_2W

C19Cxx

C 94n7

R32100_2W

C 61n

JP3 W I R E1 2

R1150_PPR

R33100_2W

JP4 W I R E1 2

TL250_Z

TL6 50_Z

R1250_PPR

JP2 W I R E1 2

R1550_PPR

P D 2 P A DJP1 W I R E1 2

D 1

H S M S 2800

TL3 50_Z

D 2

H S M S 2800

R19 51R

R950_PPR

TL150_Z

R17 51R

C 84n7

+ C21220uF_25V

+ C22220uF_25V

C161n R22

4k7

TL4 50_Z

C N 3C O A X _ CN

P D 4 P A D

C141n

D C PLR2

D I R _ C P L R

1

2

3

4

7

6

5

R214k7

C N 4C O A X _ CN

C N 5C O A X _ CN

TL9TLINE_32Z

C N 6C O A X _ CN

P D 3 P A D

P D 1

P A D

C N 7C O A X _ CN

R18 1k

P D 6

P A D

R 5 Rxx

P D 5 P A D

C1C V A R

312

C111n

TL10TLINE_75Z

R4 51R

C17C V A R

31 2

+

K2

TQ2-12V

32

4

89

7110

R20 Rxx

R6 51R

TL11TLINE_75Z

C 41n

TL12TLINE_75Z

R150_PPR

TL13TLINE_75Z

R1350_PPR

C151p

TL14TLINE_75Z

R24100_2W

R1450_PPR

C N 1C O A X _CN

R231k

R24k7

C 74n7

TL1550_Z

C N 2C O A X _ CN


PJ5KPS


CSSPLINP5KW1 Bill Of Materials Page1


1 7 CN1,CN2,CN3,CN4,CN5,CN6, COAX_CNCN7

2 2 C1,C17 CVAR3 2 C2,C15 1p4 9 C3,C4,C5,C6,C11,C12,C13, 1n

C14,C165 4 C7,C8,C9,C10 4n76 3 C18,C19,C20 Cxx7 2 C22,C21 220uF_25V8 2 DCPLR1,DCPLR2 DIR_CPLR9 4 D1,D2,D3,D4 HSMS280010 4 JP1,JP2,JP3,JP4 WIRE11 2 K1,K2 TQ2-12V12 6 PD1,PD2,PD3,PD4,PD5,PD6 PAD13 9 R1,R9,R10,R11,R12,R13, 50_PPR

R14,R15,R1614 4 R2,R3,R21,R22 4k715 4 R4,R6,R17,R19 51R16 2 R20,R5 Rxx17 4 R7,R8,R18,R23 1k18 10 R24,R25,R26,R27,R28,R29, 100_2W

R30,R31,R32,R3319 13 TL1,TL2,TL3,TL4,TL5,TL6, 50_Z

TL7,TL8,TL15,TL16,TL17,TL18,TL19

20 1 TL9 TLINE_32Z21 5 TL10,TL11,TL12,TL13,TL14 TLINE_75Z


PJ5KPS

1 / 3Unbalancement measurement CPU board - SLADKDIPJ5KM2


PJ5KPS


5

5

4

4

3

3

2

2

D D

C C

B B

A A

SINCRO IN

SINCRO OUT

P3

inp

T2

P4

SELECT 5/10kW

out

T3

PE

P1

T4

T1

P2

TE

P0

T0

\ \UT_SRV A b s o r b e r s u C C ircuit

CSADKDIPJ5K2

1.0

P J 5 K P S - S c h e d a m i s u r e a b s o r b ers

C S A D K DI PJ5K2.DSN

M a u ro Ucelli 16/01/02

11 A31RPH 3URJHWWR�

$XWRUH� &RGLFH 3URJHWWR�

1RPH 3& LQ 5HWH�

)LOH�&DUWHOOD�

'DWD�

5HYLVLRQH�

&RGLFH�

1RPH 3DUWH�

$XWRUL]]D]LRQH�

3DJLQD� 6L]H�GL

PWR_4

P W R _ E

T M P _0

T M P _1

PWR_3

PWR_2

PWR_0

PWR_1

T M P _E

T M P _4

T M P _2

T M P _3

V O U T _ P W R

VOUT_TMP

SYNC_I

SYNC_O

PA4

CH4 IRQ

CH1

CH2

DACS

SEL

CH7CH6

IRQ

CH6

CH4

CH5

PA3

CH0

MOSI

CH2

CH10

PA1

PA5

CH9

DACS

PA0

CH11

PA5

CH0

PA2

CH8

PA2

SCLK

PA0

CH5

PA4

CH7

PA1

CH1

SEL

CH3

CH8CH9

SCLK

MOSI

CH3

IRQ

CH11CH10

R S T

PA3

PWR_0

PWR_1

PWR_2

PWR_3

PWR_4

KDI_I

KDI_O

KDI_FB

KDI_FB

VOUT_TMPV O U T _ P W RCLIX

KDI_FB V O U T _ P W R CLIX

KDI_O

V O U T _ P W RSYNC_O

KDI_O V O U T _ P W R S Y N C _ O

KDI_I

P W R _ EKDI_I

P W R _ ET M P _E

SYNC_I

SYNC_I

VOUT_TMP

VOUT_TMP

T M P_E

VOUT_TMP

PWR_0PWR_1PWR_2PWR_3PWR_4

T M P_0T M P_1T M P_2T M P_3T M P_4

PWR_0 PWR_1 PWR_2 PWR_3 PWR_4

+5V

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+5VZ

+7V

-7V

+12V

+5V +5VZ

+5V+5V

+5V

+5V

+5V

-7V

+5V

-7V

+7V

+7V

+12V

-12V

+12V

-12V

+12V -12V

+7V -7V

+12V

-12V

+12V

+7V -7V

+5V+5V

C39

1n

12

D9

BAV99

12

3

+

C27100uF_35V

R423k30

R6210K

R4310k

JP2JUMPER

12

JP1JUMPER

12

C40

1n

12

C60

1n

12

R13

12k0

C10100n

12

R41 1k69

C48

1n

12

C69

100n

12

R46 10kC41

1n

12

U3

MC68HC908JL3CP

1

3

45

7

101112

1314

1517182021

2224

2526

2826892327

1619

IRQ*

VS

S

OSC1OSC2

VD

D

P T B 7P T B 6P T B 5

P T D 7P T D 6

P T B 4P T B 3P T B 2P T B 1P T B 0

P T D 3P T D 2

P T D 5P T D 4

RST*PTA0PTA1PTA2PTA3PTA4PTA5

P T D 0P T D 1

R2210k0

D21

BAV99

12

3

D17

HSMS2800

1

23

C53

1n

12

R11

10k

+

-

U1B

TL072SMD

5

67

CN2

D B 9 M S O

594837261

C64

1n

12

C4510n

12

R7100

C54

1n

12

C22

1n

12

D1

BAV99

12

3

D20

BAV99

12

3

DZ15V1SMD2

1

R51 10k

C49

1n

12

R3910k

C42 1n

1 2

R9

47k

R5410k

DZ25V1SMD

21

C5810n

12

C65

100n

12

R2347k0

D10 HSMS2800

1

23

+

-U6A

TL072SMD

3

21

48

C55

1n

12

C47 1n

1 2

+

-

U6BTL072SMD

5

67

R50100

R31

1k

C8100n

12

+

-

U1A

TL072SMD

3

21

84

D4BAV991

2

3

C5210n

12

C56

1n

12

C13

1n

12

R56 10k

Y116MHz

13

2

DZ35V1SMD2

1

C2910n

12

R48 10k

C14

1n

12

D15

BAV99

12

3

C34

100n

12

C50

1n

12

C12

1n

12

R58 10k

R52 1k

C24100n

12

C9100n

12

C1110n

12

C431n

12

C210n

12

CN3

DB9FSO

594837261

R28 47

R210k

R3410k

R2547k0

D12

HSMS2800

1

23

C3610n

12

D11 HSMS2800

1

23

R27 47

R17100

R49 1k2

C61

1n

12

D8

BAV99

12

3

D13 HSMS2800

1

23

R26100

U2

LM809

3

12VCC

G N D/RST R8

10k

R410k

C5910n

12

C19

1n

12+

C2310uF_35V

D3LM336-5.0V

2

3

1

C41n

12

Q1BC847

1

23

R20100

C33

100n1

2

Q2BC847

3

1

2

U4

TLV5626

312

6

4

7

85

CSDISCLK

REF

OUTA

O U T B

VC

CG

ND

R35 270

D2

BAV99

12

3

R12

10k

+ C68

1uF_35V

R3622

C20

1n

12

R37100k

+

-U7A

TL072SMD

3

21

48

C15100n

12

C3710n

12

+

-

U7BTL072SMD5

67

R1910k

C4410n

12

R57100k

C62

1n

12

R6110k

CN1

D B 9 M S O

594837261

R24

10k5

R5510k

D19

BAV99

12

3

C3010n

12

R10

10k

R510k

R4410k

U5

MC34064

2

31VCC

G N D/RST

C5110n

12

C66

100n

12

R5310k

D5

BAV99

12

3

C6100n

12

C1710n

12

R40 10k

R15

10k5

C1610p

12

R3047

D16 HSMS2800

1

23

C7100n

12

C46

1n

12

R310k

C25

1n

12

C67100n

12

R321k

R1410M

R3810k

R21

10k

+C28

100uF_35V

D14

BAV99

12

3

C1100n

12

C21

1n

12

C5710n

12

JP3

FLAT16V

1 23 45 67 89 1011 1213 1415 16

R3310k

D18

BAV99

12

3

C35

100n

12

C32

1n

12

+

C26100uF_35V

C63

1n

12

R6010k

C3100n

12

FIX1FIX35

1

C1810n

12

R110k

C31

1n

12

FIX2FIX35

1

D7 HSMS2800

1

23

R5910k

FIX3FIX35

1

R18

10k

C510n

12

R610k

D6

BAV99

12

3

C38

1n

12

R29100

FIX4FIX35

1

S W 1

SW DIP-4

1234

8765

R1647k0

R45 10k

R47 220


PJ5KPS


CSADKDIPJ5K2 Bill Of Materials Page1


1 2 CN1,CN2 DB9MSO2 1 CN3 DB9FSO3 16 C1,C3,C6,C7,C8,C9,C10, 100n

C15,C24,C33,C34,C35,C65,C66,C67,C69

4 16 C2,C5,C11,C17,C18,C29, 10nC30,C36,C37,C44,C45,C51,C52,C57,C58,C59

5 31 C4,C12,C13,C14,C19,C20, 1nC21,C22,C25,C31,C32,C38,C39,C40,C41,C42,C43,C46,C47,C48,C49,C50,C53,C54,C55,C56,C60,C61,C62,C63,C64

6 1 C16 10p7 1 C23 10uF_35V8 3 C26,C27,C28 100uF_35V9 1 C68 1uF_35V10 3 DZ1,DZ2,DZ3 5V1SMD11 13 D1,D2,D4,D5,D6,D8,D9,D14, BAV99

D15,D18,D19,D20,D2112 1 D3 LM336-5.0V

13 7 D7,D10,D11,D12,D13,D16, HSMS2800D17

14 4 FIX1,FIX2,FIX3,FIX4 FIX3515 2 JP2,JP1 JUMPER16 1 JP3 FLAT16V17 2 Q2,Q1 BC84718 33 R1,R2,R3,R4,R5,R6,R8,R10, 10k

R11,R12,R18,R19,R21,R33,R34,R38,R39,R40,R43,R44,R45,R46,R48,R51,R53,R54,R55,R56,R58,R59,R60,R61,R62

19 6 R7,R17,R20,R26,R29,R50 10020 1 R9 47k21 1 R13 12k022 1 R14 10M23 2 R15,R24 10k524 3 R16,R23,R25 47k025 1 R22 10k026 3 R27,R28,R30 4727 3 R31,R32,R52 1k28 1 R35 27029 1 R36 2230 2 R57,R37 100k31 1 R41 1k6932 1 R42 3k3033 1 R47 22034 1 R49 1k235 1 SW1 SW DIP-436 3 U1,U6,U7 TL072SMD

37 1 U2 LM80938 1 U3 MC68HC908JL3CP39 1 U4 TLV562640 1 U5 MC3406441 1 Y1 16MHz


PJ5KPS

1 / 5RF module CPU adapter/bias - SLADBSPJ5KPS2


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

OC_P5040

TYPE POWERAPLIF

IN_AD7IN_AD6

CLIXSON

IN_STDBY

FUSE 5040

CLIXSON

62VAC

0VAC

62VAC_5040

INHIBIT_5040

G_LEDY_LED R_LED

PWR_INP

TEMP

I_PAL1

I_PAL4

PWR_INP

CH_VPA

OUT_DACB

I_PAL3I_PAL2

VPAVBIAS

CH3_P

OC_STDBY

PWR_RFL

I_DRVIN_MAINS

OUT_GFB

OC_OUT4

OC_OUT6

OC_OUT3

OUT_VBIAS

GREEN_LED

OC_FB

DIGITAL FB

YELLOW_LED

IN_IOR

FUSE_5040

RED_LED

OC_OUT5

PWR_DIR

OUT_IOR

OC_OUT7

PWR_RFL

PWR_DIR

5040_SUPPLY

OC_RESOUT

IN IN2

IN IN4IN IN5IN IN6IN IN7IN SWSAFE

OUT MOS

+5V

+12V-12V

TR+TR-IN_GFBIN_ON

OC_ALARM

IN_AD0IN_AD1IN_AD2IN_AD3IN_AD4IN_AD5

TRIM_1TRIM_2TRIM_3

5040_VCONTROL

2A

5040_GND

PJ5000M

<Project Code>

3

Mauro Ucelli

Adattatore CPU per sezione BIAS

CSADBSPJ5KM2

<Path PC>

/BiasPJ5KMC

15/12/03

A31

1.2

��

��

��

��

��

��

��

��

��

��

PAGE2

SCHEMATIC2

OUT_MOSBIAS_D

+12V

GND

-12V

V_DRV

PAGE3

SCHEMATIC3

V_DRV

I_1

I_2

I_4

I_3

I_DRV

+12V

GND

-12V

VPA

IN_IN0

IN_AD0

+12V

IN_AD4

TR+

OC_ALARMOC_P5040

IN_AD5

IN_ON

OC_P5040

18V_DW

18V_UP

TR-

V_DRV

IN_CH2OC_OUT2OC_OUT0OC_OUT1

BIAS_DIN_CH0

IN_CH3

TR-IN_CH4

IN_CH10

IN_CH5

IN_CH2

IN_CH9

IN_CH1

IN_CH8

IN_CH6

OUT_MOSOUT_VBIAS

IN_CH7

OC_OUT0

IN_IN3

IN_IN3

IN_SWSAFE

OC_OUT1OC_OUT2

-12V

IN_AD1IN_AD2IN_AD3

IN_STDBY

OC_STDBY

IN_GFB

BIAS_D OUT_MOS V_DRV

IN_CH10

IN_CH3

IN_CH4

IN_CH5

IN_CH9

IN_CH6

18V_UP

TR+

18V_DW

IN_AD2IN_AD3IN_AD5

IN_ONIN_SWSAFE

IN_AD0IN_AD1IN_AD4

OC_ALARMIN_STDBY

IN_CH8

IN_GFB_R

IN_AD0 IN_AD1 IN_AD3 IN_AD4 IN_AD5IN_AD2

IN_IN0

IN_CH2OC_OUT0

OC_OUT1 OC_OUT2

V+

V-

IN_CH1

IN_CH0

V_DRV

+12V

IN_GFB_S

+12V

+12V

+12V

-12V

+12V

-12V

+12V

-12V

+12V

-12V

-12V

R1020k_1%

D2BAV99

12

3

FIX2FIX35

C91n

C111n_100V

R16Rxx

JP3

STRIP20

123456789

1011121314151617181920

R181k

FIX3FIX35

U3LM7912/TO220_90B

2 3

1

IN OUT

GN

D

C221n

JP5

FLAT40V

1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 40

U2LM7812/TO220_90B

1 3

2

IN OUT

GN

D

C101n_100V

D4WL04

1

3

2

4

FIX4FIX35

JP4

FLAT16V

1 23 45 67 89 1011 1213 1415 16

C16

1n_100V

C11n

R4220

FIX5FIX35

R3220

+C32

1000uF_35V

R5 20k_1%

U4LM50C_SMD

1

3

2

VS

GND

V0

C21n_100V

C211n

+

C36

1000uF_35V

+C33

10uF_35V

FIX6FIX35

FIX7FIX35

+

-

U1D

TL074_SMD

12

1314

+

-

U1ATL074_SMD

3

21

114

CN2KB4

1

2

3

4

C131n_100V

C351n_100V

JP2

STRIP20

123456789

1011121314151617181920

R13Rxx

R610k_1%

+

C37

10uF_35V

C28 1n_100V

R710k_1%

FIX1FIX35

R22

10k_1%

CN1

PHOENIX6

1

2

3

4

5

6

C171n_100V

C18100n

C311n

C121n_100V

D17BAV99

12

3

R107 20k_1%

R110_1/4W

C1011n_100V

R11Rxx

C29

1n_100V

R10820k_1%

C201n

R810k_1%

R15Rxx

+

C42100uF_35V

R21

100_1%

C19

1n_100V

C261n

FIX8FIX35

C411n

C71n

FIX9FIX35

R12270k

FIX10FIX35

CN3

KB4

1

2

3

4

FIX11FIX35

+

C38

100uF_35V

+

-

U1CTL074_SMD

10

98

C151n

C251n

C627p_100V

C43100n

R17

RXE050

+C34

100uF_35V

C27100n

R910k_1%

D1

HSMS28001 2

3

JP1

STRIP20

123456789

1011121314151617181920

+

-

U1BTL074_SMD

5

67

R19

10k_1%

D3

HSMS28001 2

3

C141n

PD1PIAZ2

C401n

C241n

R2010k_1%

R210_1/4W

C391n

C51n

C41n

TP1

TP

D55V1SMD

C81n

C301n

R14 33k2_1%

C231n

C327p_100V


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

PJ5000M

<Project Code>

3

Mauro Ucelli


CSADBSPJ5KM2

<Path PC>

/BiasPJ5KMC

15/12/03

A32

1.2

��

��

��

��

��

��

��

��

��

��

-12V

+12V

-12V

+12V

-12V

-12V

+12V

+12V

-12V

-12V

+12V

+12V

-12V

-12V

+12V

+12V

-12V

+12V

-12V

+12V

+12V

-12V

R68 1k

D12

9V1SMD

C57

100n

+

-

U11D

TL074_SMD

12

1314

R27 1k+

-

U5A

TL074_SMD

3

21

114

R2510k_1%

+

-

U12B

TL074_SMD

5

67

D11

9V1SMD

R56 1k

R59 1k

+

-

U5B

TL074_SMD

5

67

R34 1k

+

-

U5C

TL074_SMD

10

98

R50 1k

+

-

U13D

TL074_SMD

12

1314

+

-

U5D

TL074_SMD

12

1314

R40 1k

C44

100n

D6

12VSMD

+

-

U11A

TL074_SMD

3

21

114

R53 1k

C48

100n

R44 1k

R3110k_1%

R62 1k

R47 1k

C54

100n

R244k7

C52

100n

R67 1k

R1092k2

C59

100n

+

-

U11B

TL074_SMD

5

67

+

-

U13B

TL074_SMD

5

67

+

-

U10C

TL074_SMD

10

98

R52 1k

+

-

U8A

TL074_SMD

3

21

114

+

-

U10D

TL074_SMD

12

1314

+

-

U13A

TL074_SMD

3

21

114

+

-

U8B

TL074_SMD

5

67

R55 1k

R234k7

+

-

U13C

TL074_SMD

10

98

+

-

U8C

TL074_SMD

10

98

R49 1k

R3010k_1%

JP6

LUMBERG_6PV

123456

+

-

U8D

TL074_SMD

12

1314

+

-

U10A

TL074_SMD

3

21

114

C47

100n

R61 1k

D14

9V1SMD

+

-

U9A

TL074_SMD

3

21

114

R3833k2_1%

C51

100n

R66 1k

+

-

U7A

TL074_SMD

3

21

114

D13

9V1SMD

+

-

U9B

TL074_SMD

5

67

R29 1k

+

-

U10B

TL074_SMD

5

67

R374k7

+

-

U7B

TL074_SMD

5

67

+

-

U9C

TL074_SMD

10

98

R36 1k

+

-

U7C

TL074_SMD

10

98

+

-

U9D

TL074_SMD

12

1314

f

F5DSS310

1 32

R42 1k

+

-

U7D

TL074_SMD

12

1314

C62

1n

f

F4DSS310

1 3

2

C53

100n

f

F3DSS310

1 3

2

R46 1k

C46

100nR26 1k

f

F2DSS310

1 3

2

C58

100n

R33 1k

R582k7_1/2W

C56

100n

C50

100n

R39 1k

R642k7_1/2W

R48 1k

R43 1k

C61

100n

R28 1k

D7

9V1SMD

R54 1k

C63

1n

+

-

U12C

TL074_SMD

10

98

R35 1k

D8

9V1SMD

+

-

U6A

TL074_SMD

3

21

114

R60 1k

C64

1n

Q2

BC847BL

3

1

2

R3210k_1%

+

-

U12D

TL074_SMD

12

1314

R41 1k

Q1

BC857BL

3

1

2

+

-

U6B

TL074_SMD

5

67

R65 1k

C65

1n

R57 1k

R45 1k

+

-

U6C

TL074_SMD

10

98

C66

1n

R51 1k

C55

100n

+

-

U6D

TL074_SMD

12

1314

D10

9V1SMD

+

-

U12A

TL074_SMD

3

21

114

D16

9V1SMD

C60

100n

C45

100n

D9

9V1SMD

R63 1k

D15

9V1SMD

+

-

U11C

TL074_SMD

10

98

f

F1DSS310

13

2C49

100n

OUT_MOS

BIAS_D

+12V

GND

-12V

V_DRV


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

40A

10A

10A

10A

10A

2A

10A

10A

10A

10A

PJ5000M

<Project Code>

3

Mauro Ucelli


CSADBSPJ5KM2

<Path PC>

/BiasPJ5KMC

15/12/03

A33

1.2

��

��

��

��

��

��

��

��

��

��

I3-

I4-

ID+

I2+

I3+

I4-

I3-

ID-

I4+

I1+

ID-

I2-

I2-

I1+

I2+

I3+

I4+

ID+

I1-

I1-

+12V

-12V

+12V

-12V

+12V +12V

+12V

-12V

-12V

-12V

+12V +12V

-12V

-12V

+12V

-12V

-12V

+12V

-12V

+12V

+12V

-12V

R90 100_1%

R102 10k_1%

PD5

PAD10A

R95 100k

R105 100k

TR150k_T4S

13

2

R9427k4_1/4W

R73 10k_1%

TR550k_T4S

13

2

R971k

R69 51_1%

C95

100n

C921n

R100 51_1%

R70 10k_1%

C701n_100V

C67

100n

U17INA146

2

3

4 1 8

6

57

C78

100n

R96 100k

R104

100_1%

C884n7_100V

C100

100n

C721n

C81680pHQ

C731n_100V

R86 51_1%

R76 100_1%

U18INA146

2

3

4 1 8

6

57

C83680pHQ

SH1 SHUNT2.5

R10610_1%

C89680pHQ

SH2 SHUNT2.5

R89 10k_1%

C751n

C764n7_100V

C96

100n

SH3 SHUNT2.5

R9910_1%

SH4 SHUNT2.5

PD2

PAD10A

C85

100n

CN4

KRA4

1

2

3

4

C871n_100V

R103 100_1%

TR450k_T4S

13

2

U14INA146

2

3

4 1 8

6

57

R101 10k_1%

R91 100_1%C911n

FS1

F2A_C

R93

100_1%

C691n_100V

R87 10k_1%

U15INA146

2

3

4 1 8

6

57

C931n

C804n7_100V

TR250k_T4S

13

2

U16INA146

2

3

4 1 8

6

57

R8210_1%

R74 10k_1%

TR350k_T4S

13

2

R71 51_1%

R80 100k

R88 10k_1%

PD3

PAD10A

C77680pHQ

C971n_100V

R72 10k_1%

R84 51_1%

C981n

C68

100n

R85 10k_1%

C79

100n

C861n_100V

R78

100_1%

C84

100n

TP2TP

C711n

PD4

PAD10A

R8310_1%

TP4TP

C741n

C991n

C94

100n

TP3TP

R79

100_1%

TP5TP

C824n7_100V

R9810_1%

TP6TP

R77 100_1%

R75 0.1_5W

R92

100_1%

C901n

R81 100k

V_DRV

I_1

I_2 I_4

I_3

I_DRV

+12V

GND

-12V

VPA


PJ5KPS


CSADBSPJ5KM2 Bill Of Materials Page1

Item Q.ty Reference Part

____________________________________________________________________________________________

1 1 CN1 PHOENIX6

2 2 CN3,CN2 KB4

3 1 CN4 KRA4

4 35 C1,C4,C5,C7,C8,C9,C14, 1n

C15,C20,C21,C22,C23,C24,

C25,C26,C30,C31,C39,C40,

C41,C62,C63,C64,C65,C66,

C71,C72,C74,C75,C90,C91,

C92,C93,C98,C99

5 18 C2,C10,C11,C12,C13,C16, 1n_100V

C17,C19,C28,C29,C35,C69,

C70,C73,C86,C87,C97,C101

6 2 C6,C3 27p_100V

7 31 C18,C27,C43,C44,C45,C46, 100n

C47,C48,C49,C50,C51,C52,

C53,C54,C55,C56,C57,C58,

C59,C60,C61,C67,C68,C78,

C79,C84,C85,C94,C95,C96,

C100

8 2 C36,C32 1000uF_35V

9 2 C33,C37 10uF_35V

10 3 C34,C38,C42 100uF_35V

11 4 C76,C80,C82,C88 4n7_100V

12 4 C77,C81,C83,C89 680pHQ

13 2 D3,D1 HSMS2800

14 2 D2,D17 BAV99

15 1 D4 WL04

16 1 D5 5V1SMD

17 1 D6 12VSMD

18 10 D7,D8,D9,D10,D11,D12,D13, 9V1SMD

D14,D15,D16

19 11 FIX1,FIX2,FIX3,FIX4,FIX5, FIX35

FIX6,FIX7,FIX8,FIX9,

FIX10,FIX11

20 1 FS1 F2A_C

21 5 F1,F2,F3,F4,F5 DSS310

22 3 JP1,JP2,JP3 STRIP20

23 1 JP4 FLAT16V

24 1 JP5 FLAT40V

25 1 JP6 LUMBERG_6PV

26 1 PD1 PIAZ2

27 4 PD2,PD3,PD4,PD5 PAD10A

28 1 Q1 BC857BL

29 1 Q2 BC847BL

30 2 R1,R2 10_1/4W

31 2 R3,R4 220

32 4 R5,R10,R107,R108 20k_1%

33 21 R6,R7,R8,R9,R19,R20,R22, 10k_1%

R25,R30,R31,R32,R70,R72,

R73,R74,R85,R87,R88,R89,

R101,R102

34 4 R11,R13,R15,R16 Rxx

35 1 R12 270k

36 2 R14,R38 33k2_1%

37 1 R17 RXE050

38 38 R18,R26,R27,R28,R29,R33, 1k

R34,R35,R36,R39,R40,R41,

R42,R43,R44,R45,R46,R47,

R48,R49,R50,R51,R52,R53,

R54,R55,R56,R57,R59,R60,

R61,R62,R63,R65,R66,R67,

R68,R97

39 11 R21,R76,R77,R78,R79,R90, 100_1%

R91,R92,R93,R103,R104

40 3 R23,R24,R37 4k7

41 2 R64,R58 2k7_1/2W

42 5 R69,R71,R84,R86,R100 51_1%

43 1 R75 0.1_5W

44 5 R80,R81,R95,R96,R105 100k

45 5 R82,R83,R98,R99,R106 10_1%

46 1 R94 27k4_1/4W

47 1 R109 2k2

48 4 SH1,SH2,SH3,SH4 SHUNT2.5

49 6 TP1,TP2,TP3,TP4,TP5,TP6 TP

50 5 TR1,TR2,TR3,TR4,TR5 50k_T4S

51 10 U1,U5,U6,U7,U8,U9,U10, TL074_SMD

U11,U12,U13

52 1 U2 LM7812/TO220_90B

53 1 U3 LM7912/TO220_90B

54 1 U4 LM50C_SMD

55 5 U14,U15,U16,U17,U18 INA146


PJ5KPS

1 / 3RF module driver - SLDRVRFPJ5KM


PJ5KPS


5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

FORWARD POWER

REFLECTED POWER

BIAS

VPA

\ \UT_SRV RF Dr iver 1KW Uni t

C S D R V R F P J 5 K M

1.0

PJ5000MC - Dr iver modulo 1.2 kW

<>

D R I V E R 1 K W . D S N

Mauro Ucel l i 07/06/01

11 A3� � � � � � � � � � � � �

� � � � � � � � � � � � � � � � � � �

� � � � � � � � � � � �

� � � � � � � � � � � � �

� � � � �

� � � � � � � �

� � � � � �

� � � � � � � � � �

� � � � � � � � � � �

� � � � � � � � � ��

C4647p

R27 1

TL14

Z50_E1.5

C40Cxx

TP2RF_INP

C 44n7

cw

R V 120k

C 84n7

TP3R F _ G N D

R28470

C364n7

+-

R Y 2

RLTQ2A

123456

789

10

C4122p_HQ

C 94n7

R29Rxx

TL8

Z50_E1.5

C44680p_HQ

TRF1IN_MATCH

12

3 45TL2

Z50

TL1

Z50

M O S1BLF175

32

1

4

TL12

Z50_E6

C26 Cxx

R 82 2 _ 1 W

D C P L R 1DIR_CPLR

1

2 3

4

7 6 5

C304n7

TP1R F _ O U T

C344n7

D 1R_LED-G3

C3810p_CC

C294n7

R1127C14

4n7

C 64n7

R 2 10k

C39680p_HQ

R1027

R 4 1k_1/4W

R22470

C42270p_CC

+-

R Y 3

RLTQ2A

123456

789

10

D 71N4004

+

C2233uF_63V

TL9

Z50_E1.5

L36 _ W

C 5680p_HQ

TL3

Z50

L4

4 _ W

TL13

Z50_E3

C 2100n_63V

C354n7

C334n7

R21 Rxx

C184n7

R236.8_1/4W

C124n7

R19 150

L1VK200

C43680p_HQ

C 74n7

TL4

Z50

R 51k_1/4W

R16 150

C17680p_HQ

D 3H S M S 2 8 0 0

C 34n7

JP1

FLATT_16PP

1 23 45 67 89 1011 1213 1415 16

R 61k_1/4W

R20 Rxx

D 4H S M S 2 8 0 0

TL6

Z50

R18 150

D 5G_LED-G3

R15 150

R 3 10k

C194n7

cw

R V 2500

C282/20p

31

2

D 6 1N4004

C11100n_63V

C164n7

+-

R Y 1

RLTQ2A

123456

789

10

R 9 1k_1/4W C204n7

C27

680p_HQ

R12

680_1 /4W

C37Cxx

D 2Y_LED-G3

C154n7

C25

680p_HQ

C104n7

TL7

Z50_E1.5

L2VK200

R301k5_2W

TL11

Z50_E12

C214n7

R311k5_2W

C31Cxx

R 7 1k_1/4W

C 1680p_HQ

TL5

Z50

R13 2k2

C32

1p

R17 2k2

S1

76PRB04

1234

8765

R14 1k

R24 Rxx

C244n7

R26 1

+-

R Y 4

RLTQ2A

123456

789

10

R 1 10_1 /4W

C4547p

C234n7

R25 Rxx

TL10

Z50_E1.5

C134n7


PJ5KPS


CSDRVRFPJ5KM Bill Of Materials Page1


1 8 C1,C5,C17,C25,C27,C39, 680p_HQC43,C44

2 2 C11,C2 100n_63V3 24 C3,C4,C6,C7,C8,C9,C10, 4n7

C12,C13,C14,C15,C16,C18,C19,C20,C21,C23,C24,C29,C30,C33,C34,C35,C36

4 1 C22 33uF_63V5 4 C26,C31,C37,C40 Cxx6 1 C28 2/20p

7 1 C32 1p8 1 C38 10p_CC9 1 C41 22p_HQ10 1 C42 270p_CC11 2 C45,C46 47p12 1 DCPLR1 DIR_CPLR13 1 D1 R_LED-G314 1 D2 Y_LED-G315 2 D3,D4 HSMS280016 1 D5 G_LED-G317 2 D7,D6 1N400418 1 JP1 FLATT_16PP

19 2 L2,L1 VK200

20 1 L3 6_W21 1 L4 4_W22 1 MOS1 BLF17523 1 RV1 20k24 1 RV2 1K25 4 RY1,RY2,RY3,RY4 RLTQ2A26 1 R1 10_1/4W27 2 R2,R3 10k28 5 R4,R5,R6,R7,R9 1k_1/4W29 1 R8 22_1W

30 2 R11,R10 2731 1 R12 680_1/4W32 2 R13,R17 2k233 1 R14 1k34 4 R15,R16,R18,R19 15035 5 R20,R21,R24,R25,R29 Rxx36 2 R22,R28 47037 1 R23 6.8_1/4W38 2 R26,R27 139 2 R31,R30 1k5_2W40 1 S1 76PRB0441 6 TL1,TL2,TL3,TL4,TL5,TL6 Z5042 5 TL7,TL8,TL9,TL10,TL14 Z50_E1.543 1 TL11 Z50_E1244 1 TL12 Z50_E645 1 TL13 Z50_E346 1 TP1 RF_OUT47 1 TP2 RF_INP48 1 TP3 RF_GND49 1 TRF1 IN_MATCH


PJ5KPS

1 / 5RF Module switching power supply - PSSW5040


PJ5KPS


SLP.COMP.

ADJ.

50KHZ

VOLTAGE

1V

TP3=1,6V R56=13K3 R57=1K6

INIBIT

PER VOUT 24V R21=3K52 R20=1K0

TP3= 1.6V

\\UT_SRV MAIN BOARD

PSSW5040

1.1 (D.C.)

PJ5KPS - RF module power supply

PJ5000MC_Code

PS5040.DSN

Mauro Ucelli 15/12/03

11 Custom��

��

��

��

��

��

��

��

��

��

SS

VOUT

POS

PWM

SS

PWM

VOUT

POS

NEG

VADJ

VADJ

NEG

NEG

VOUT

DG3

VCC

VCC

VCC

VCC

VCC

VCC

VCC

R181M

+C13

EKE1000/63

R41

4K7/2W

C4MKP1nF/600

C27

CM1UF

+

C32

CT1/16

+C11

EKE1000/63

R8

80R2

D13

1N4148

R29

5K62

U1

UC3823

12345678

16151413121109

INV.N.I.E/A OUTCLKRTCTRAMPS.START

VREFVCCOUT

VCPWRGND

ILMREFGND

ILS.D.

R44 NC

JP1

PHOENIX2

12

+C17

EKE1000/63

+

-U5B

LM358

5

67

R32

10R/4W

+C48

EKE470/100

R25

87W-2K

R23

2M7

Q4IRFP250

D14

1N4148

Q2

BC237

F1

BL02

R12

237R

JP13

MOLEX4

1234

JP5

KRA4

1234

F5

FF25A

+

C21EKE1000/63

IS1

4N26

12

54

6

R14

22K/1W

C59CP.1UF

+C14

EKE1000/63

JP4

KRA4

1234

R40 NC

C3

4n7UF2.5%

F3 NC

R212K49

F6

BL02

+C19

EKE1000/63

D11 1N4004

+

C31

CT1/16

Q6IRFP250

+ C1

470uF/40

R50

20K0

D8

LED V

D12

LED V

R11

2K61

R33

10R/4W

R17

1K

R55

180R

+C51

EKE470/100

+C46

EKE470/100

R31

5K62

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PSSW5040 Bill Of Materials Page1

Item Q.ty Reference Part__________________________________________________________________________________________

1 2 Q7, Q1 IRFD1202 4 Q3, Q4, Q5, Q6 IRFP2503 1 Q3 IRFD91204 5 C1,C3,C5,C7,C8 CE1/255 2 C1,C2 EYS4700/1006 2 C1,C50 470UF/407 5 C2,C26,C30,C37,C57 CM.1UF8 1 C2 100UF/259 1 C3 4n7UF10 10 C3,C4,C5,C6,C7,C8,C46, EKE470/100

C47,C48,C5111 2 C6,C4 CD.1UF12 3 C4,C23,C24 MKP1nF/60013 1 C7 CA1/25014 3 C10,C44,C54 MKP-1UF/25015 12 C11,C12,C13,C14,C15,C16, EKE1000/63

C17,C19,C20,C21,C22,C3416 11 IS2,F2,F3,L8,L9,D10,C18, NC

R40,C42,R44,C4517 1 C27 CM1UF18 3 C28,C35,C36 CM100PF19 1 C29 CM1KpF20 2 C32,C31 CT1/1621 1 C33 CP10KPF22 3 C39,C40,C58 100PF23 3 JP6,C41,C43 NC24 1 C49 CP.22UF25 1 C52 47UF/2526 2 C53,C59 CP.1UF27 1 C55 CM28 1 C60 2.2UF/1629 1 DL1 LED R30 2 D2,D1 40EPS0831 1 D1 27V/1W32 4 D1,D2,D3,D4 11DQ0433 1 D2 30V/1W34 1 D3 WL0235 3 D4,D7,D11 1N400436 1 D5 5V1/0.5W37 2 D6,D5 HFA50PA60C38 2 D12,D8 LED V39 2 D14,D13 1N414840 2 F6,F1 BL0241 2 F4,F5 FF25A42 1 IS1 4N2643 1 JP1 KRA1044 2 JP1,JP14 PHOENIX245 4 JP2,JP3,JP4,JP5 KRA446 1 JP7 PHOENIX447 5 JP8,JP9,JP10,JP11,JP13 MOLEX448 1 JP12 JUMPER249 1 L1 BFT074050 1 L1 BFV072051 2 L6,L5 130uH52 1 L10 BFV0710

53 1 Q1 50RIA2054 1 Q2 BC23755 1 RV1 V120ZA656 1 R1 22K57 1 R1 390R58 2 R21,R1 2K4959 1 R2 4K0260 4 R2,R3,R8,R9 4R9961 2 R3,R4 100R62 4 R6,R7,R10,R11 10R63 3 R6,R32,R33 10R/4W64 2 R12,R7 237R65 1 R8 80R266 2 R9,R10 3K367 2 R11,R13 2K6168 1 R12 470R69 2 R13,R14 14R770 1 R14 22K/1W71 1 R15 150R72 1 R16 392R73 1 R17 1K74 1 R18 1M75 1 R19 87W-500R76 1 R20 2K077 1 R22 5K1178 1 R23 2M779 1 R24 6k8180 1 R25 87W-2K81 2 R26,R35 1K082 1 R27 22K83 4 R28,R29,R30,R31 5K6284 1 R36 47K585 1 R41 4K7/2W86 1 R43 22R/1W87 2 R50,R53 20K088 2 R51,R52 40K289 1 R54 1K 5%90 1 R55 180R91 1 R56 13K392 1 R57 68R 5%93 1 R58 87W-10K94 3 R59,R104,R105 820R95 1 R60 10K/1W96 4 TP1,TP2,TP3,TP4 TP97 1 T1 15V98 1 U1 UC382399 1 U1 TC427100 2 U3,U2 LM317101 1 U2 HCPL2611102 1 U4 HTM50103 1 U5 LM358

copertina en 1 2 - R.V.R. Elettronica · mechanic, including ... New section chap.8 I/O interface...

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Transcript of copertina en 1 2 - R.V.R. Elettronica · mechanic, including ... New section chap.8 I/O interface...