Emtron DX-3 User manual

OPERATING MANUAL
EMTRON DX-3
HF LINEAR AMPLIFIER
April 2005
Emtron
DIVISION OF EMONA ELECTRONICS PTY. LTD.
92-94 Wentworth Avenue, Sydney 2010, Australia
Tel. +612 92110988 Fax +612 92811508
www.emtron.com.au

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DX-3, Serial No…………
INITIAL SETTINGS FOR PLATE AND LOAD
CAPACITORS
TEST
FREQUENCY
BAND FACTORY SETTINGS
50 OHM LOAD
USER SETTINGS
ANTENNA
PLATE LOAD PLATE LOAD
28.600 MHz 10m
24.900 MHz 12m
21.200 MHz 15m
18.100 MHz 17m
14.200 MHz 20m
10.125 MHz 30m
7.070 MHz 40m
3.600 MHz 80m
1.800MHz 160m
1.850 MHz 160m
1.900 MHz 160m
TABLE 1

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TABLE OF CONTENTS
1GENERAL DESCRIPTION..................................................................................................................................................... 5
1.1 DX-3 –INTERNAL VIEW ...................................................................................................................................................... 6
2TECHNICAL SPECIFICATIONS.......................................................................................................................................... 7
3UNPACKING ............................................................................................................................................................................ 8
3.1 OPENING THE CARTON ......................................................................................................................................................... 8
3.2 OPENING THE DX-3 COVER .................................................................................................................................................. 8
3.3 INSTALLING THE TRANSFORMER .......................................................................................................................................... 8
4INSTALLATION ENVIRONMENT....................................................................................................................................... 9
4.1 REQUIRED ENVIRONMENT .................................................................................................................................................... 9
4.2 POWER REQUIREMENTS ........................................................................................................................................................ 9
5REAR PANEL ........................................................................................................................................................................... 9
5.1 POWER /EARTH CONNECTIONS ............................................................................................................................................ 9
5.2 RF CONNECTIONS............................................................................................................................................................... 10
5.3 TRANSCEIVER CONTROL..................................................................................................................................................... 10
6FRONT PANEL ...................................................................................................................................................................... 10
6.1 CONTROLS ......................................................................................................................................................................... 10
6.2 DISPLAYS ........................................................................................................................................................................... 11
7ELECTRICAL CONNECTIONS.......................................................................................................................................... 12
7.1 CONNECTIONS TO TRANSCEIVER /EXCITER ....................................................................................................................... 12
7.2 EARTH AND MAINS CONNECTIONS...................................................................................................................................... 12
7.3 TERMINATING THE POWER CABLE (EXPORT VERSION)........................................................................................................ 12
7.4 OPERATION AT 230V, 220V, 200V (EXPORT VERSION) ...................................................................................................... 12
8DX-3 DESCRIPTION ............................................................................................................................................................. 13
8.1 RF SECTION ....................................................................................................................................................................... 13
8.2 MAINS TRANSFORMER........................................................................................................................................................ 14
8.3 H. V. POWER SUPPLY......................................................................................................................................................... 14
8.4 SOFT START MODULE ......................................................................................................................................................... 14
8.5 SENSOR MODULE................................................................................................................................................................ 14
8.6 ANTENNA RELAY /QSK MODULE ...................................................................................................................................... 14
8.7 DISPLAY BOARD ................................................................................................................................................................. 14
8.8 CONTROLLER BOARD ......................................................................................................................................................... 14
9POWERING UP...................................................................................................................................................................... 16
10 OPERATION....................................................................................................................................................................... 16
10.1 TUNNING PROCEDURE ................................................................................................................................................ 16
10.1.1 General...................................................................................................................................................................... 16
10.1.2 Preliminary tuning..................................................................................................................................................... 16
10.1.3 Final tuning ............................................................................................................................................................... 17
10.1.4. Potential problems during tuning.................................................................................................................................. 18
10.2 ALC ADJUSTMENT ........................................................................................................................................................ 18
10.3 USING YOUR DX-3......................................................................................................................................................... 19
10.3.1 CW / RTTY and all digital modes .............................................................................................................................. 19
10.3.2 Voice modes (SSB)..................................................................................................................................................... 19
10.3.3 Hints on good linearity and efficiency....................................................................................................................... 19
11 SWITCHING THE POWER OFF..................................................................................................................................... 20
12 TROUBLESHOOTING - IF SOMETHING GOES WRONG........................................................................................ 20
12.1 NO POWER.......................................................................................................................................................................... 20
12.2 FAN NOT WORKING............................................................................................................................................................. 20
12.3 IF THE FAULT LIGHT TURNS ON ........................................................................................................................................ 20

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12.4 OVER-TEMPERATURE CUT-OFF ........................................................................................................................................... 20
12.5 OVER-CURRENT CUT-OFF ................................................................................................................................................... 21
12.6 IG2BLINKS FAST -NO PLATE VOLTAGE.............................................................................................................................. 21
12.7 SPARKS /DISCHARGES IN RF AREA .................................................................................................................................... 21
12.8 SWR CUT-OFF .................................................................................................................................................................... 21
12.9 FREQUENT OVER-DRIVE PROTECTION CUT-OFF .................................................................................................................. 21
12.10 TUBE REPLACEMENT ...................................................................................................................................................... 21
13 WARRANTY / SERVICE .................................................................................................................................................. 21
14 GLOSSARY......................................................................................................................................................................... 22
15 APPENDIX 1: SCHEMATIC DIAGRAMS ..................................................................................................................... 23
15.1 DX-3 BLOCK DIAGRAM ..................................................................................................................................................... 23
15.2 CIRCUIT DIAGRAM –HIGH VOLTAGE POWER SUPPLY.............................................................................................. 24
15.3 CONTROL BOARD AND ADJUSTMENT POINTS..................................................................................................................... 25
15.4 CIRCUIT DIAGRAM –AC INPUT AND WIRING DIAGRAM –STANDARD ..................................................................... 26
15.5 CIRCUIT DIAGRAM –AC INPUT AND WIRING DIAGRAM –U.S. VERSION ................................................................. 27
15.6 CIRCUIT DIAGRAM –SOFT START (200 TO 240 VOPERATION) ................................................................................. 28
15.7 CIRCUIT DIAGRAM –QSK ................................................................................................................................................. 29
15.8 CIRCUIT DIAGRAM –RF MODULE................................................................................................................................... 30
15.9 CIRCUIT DIAGRAM –CONTROL BOARD ........................................................................................................................ 32
15.10 CONTROL BOARD –COMPONENT LEGEND (SILKSCREEN TOP) ................................................................................ 33
CONTROL BOARD –SOLDER SIDE TRACK WORK............................................................................................................................ 34
16 APPENDIX 2: WAVEFORMS .......................................................................................................................................... 35
16.1 QSK (OPTIONAL MODULE)SWITCHING.............................................................................................................................. 35
16.2 LINEARITY ......................................................................................................................................................................... 35
17 APPENDIX 3: ADJUSTMENTS ....................................................................................................................................... 36
17.1 CONTROL BOARD ......................................................................................................................................................... 36
17.1.1 PRE-BIAS ADJUSTMENT (Adjustment: POT7, marked PRE_BIAS)....................................................................... 36
17.1.2 BIAS ADJUSTMENT (Adjustment: POT3, marked BIAS)......................................................................................... 36
17.1.3 SWR Protection adjustment....................................................................................................................................... 37
17.1.4 EBS ADJUSTMENT (Adjustment: POT4, marked EBS). .......................................................................................... 37
17.1.5 SCREEN VOLTAGE ADJUSTMENT (Adjustment: POT2, marked SCREEN) ......................................................... 38
17.1.6 SCREEN CURRENT LIMIT ADJUSTMENT (Adjustment: POT1, IG2LIMIT)........................................................ 38
17.1.7 IPTRIP ADJUSTMENT (Adjustment: POT6, marking: IP TRIP) ............................................................................. 38
17.2 DISPLAY BOARD ADJUSTMENTS .............................................................................................................................. 40
17.2.1 PLATE CURRENT (Adjustment: VR4, Marked: AMP) ............................................................................................. 40
17.2.2 PLATE VOLTATE (Adjustment: VR2, marked: VOLT)............................................................................................. 40
17.2.3 REFLECTED POWER (Adjustment: VR3, marked: RF R) ....................................................................................... 40
17.2.4 FORWARD POWER (Adjustment: VR1, marked: RF F)........................................................................................... 41
17.2.5 SCREEN CURRENT (Adjustment: VR6, marked IG2+, VR5, marked IG2-) ............................................................ 41
17.3 RF SENSOR ADJUSTMENT ........................................................................................................................................... 42

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DX-3 LINEAR AMPLIFIER
Serial No …………
OPERATING MANUAL
April 2005
CAUTION
1 GENERAL DESCRIPTION
The Emtron DX-3 Linear Amplifier is a 3000 watt average output power, for the 160m through 10m amateur bands (9 bands),
housed in a desk-top cabinet with self-contained power supply and cooling system.
It utilises a single high performance tetrode, type GU78B (4CX3000A),a ceramic metal tube with a plate dissipation of 2500W.
The tube is air cooled by a commercial grade forced air turbine blower system under the chassis and a computer type fan sucking
air and positioned above the tube. Both fans operate at two speeds, controlled by a temperature sensor.
Tetrodes offer exceptionally stable operation and levels of quality performance far exceeding that which can be expected from
triodes. The harmonic output and intermodulation distortion achieved with this tube are exceptionally low. This is especially
important when dealing with a high output power.
The Emtron DX-3 is supplied as standard with a host of features including solid state metering, comprehensive protection systems
and very long duty cycle.
In addition, a unique Emtron QSK module allows for extremely rapid switching times between transmit and receive, with
consequent advantages when using CW or the digital modes. QSK is standard in all DX-3 amplifiers.
Operation of the DX-3 is greatly simplified by the absence of meter switching, mechanical display and front panel level setting
controls. The front panel moving LED display systems indicate simultaneously: the output forward and reverse power, screen grid
current (positive and negative), the plate voltage and the plate current, while 5 single LED’s indicate: Ready, Overdrive warning,
High SWR cut-off indication, On Air and Fault.
The Emtron Electronic Bias Switch (EBS) automatically switches the standing current (typically 0.75 A) off when there is no
modulation. This reduces the average tube dissipation.
On initial switch on, the unique Emtron "soft start" circuitry ensures that no damaging AC surge currents are generated.
Professional, fine output tuning adjustment is possible, due to the 6: 1 reduction mechanism fitted.
The DX-3 has been designed for 100% safe operation and long life. Interlocking
sensing circuitry constantly monitors conditions inside the amplifier. It must be
noted however, that the high voltages present inside the DX-3 are EXTREMELY
DANGEROUS. Do not remove the top cover under any circumstances if any leads
are still plugged into the rear of the amplifier - especially if the AC lead is plugged in
the power outlet. Before any component inside the high voltage, power
supply or output section is touched, unplug all rear panel leads and
allow at least 5 minutes of 'off time'. After that, you should further check this
by momentarily shorting the tube anode to the chassis with a suitable insulated lead.

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1.1 DX-3 – Internal View
The main components of a DX-3 amplifier are shown in the picture below.
Temperature Sensor
TANK COIL
40 -160 m
RF CHOKE
TANK COIL
10-30 m
RF SENSOR QSK
SOFT START
HIGH VOLTAGE
POWER SUPPLY
CONTROL
BOARD
SAFETY
MI
CO
R
S
WIT
C
H
BLOWER
BAND
SWITCH
BAND
SELECTOR
PLATE
TUNING LOAD
TUNING
DISPLAY
POWER
ON / OFF
STANDBY /
OPERATE
SWITCH
Tetrode GU78B
(4CX3000)
TERMINAL BLOCK,
SOFT START

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2 TECHNICAL SPECIFICATIONS
FREQUENCY COVERAGE: Complete (manually tuned) coverage of the nine HF amateur bands:
1.800 – 1.900 MHz
3.500 – 4.000 MHz
7.000 – 7.500 MHz
10.000 – 10.300 MHz
14.000 – 14.350 MHz
18.000 – 18.500 MHz
21.000 – 21.500 MHz
24.000 – 24.500 MHz
28.500 – 29.990 MHz
TRANSMITTING MODES: Both continuous and low duty cycle modes are supported. That is, the DX-3
supports SSB, CW, AM, FM, RTTY and SSTV. II
OUTPUT POWER: Typical 3000 watts carrier or up to 4000 W PEP
DRIVE POWER: Nominal 60-90 watts for full rated output.
INPUT IMPEDANCE: Nominal 50 ohm passive impedance, unbalanced. VSWR 1.4:1 or less.
OUTPUT IMPEDANCE: Nominal 50 ohm passive impedance, unbalanced. VSWR 2.6:1 or less.
DISTORTION: Third order intermodulation products are more than 35 dB below rated output.
HARMONICS: Harmonic output is better than 50dB below the rated output.
FAULT PROTECTION: The comprehensive fault protection system include circuitry to monitor:
•plate current: should the plate current exceed a safe value, the amplifier goes to standby mode for 2
minutes.
•screen grid over-current: Absolute tube protection is offered with visual warning and a reduced power
level being enabled if the screen current exceeds a pre-set limit.
•temperature: Should the tube's temperature exceed a specific level, amplifier operation is suspended
until the temperature drops to a safe level.
•Flash-over: a 3-stage protection circuit using extremely fast MOV’s protects the screen regulator from
the dangerous plate voltage in case of a flash-over in the tube.
OPERATIONAL PROTECTION
•Overdrive protection: Should the DX-3 be overdriven, a LED warning indictor will light up when the
linearity limit is reached. If the drive is increased further, a 2 second cut off (by-pass) will follow.
•SWR protection: Should the DX-3 sense an SWR exceeding 2.6:1, a LED warning indicator will light
up, simultaneously with a 3 second cut off.
METERING: The front panel moving LED display systems indicate:
“Moving light” LED indicators:
•output power
•reflected power
•screen grid current
•plate voltage
•plate current

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Five single LED’s:
•on air
•ready
•fault
•overdrive warning
•SWR cut-off indicator
ALC: Negative going, adjustable output level.
EBS: Electronic Bias Switch - automatically switches the standing current (about 0.75 A) to a lower ("pre-
bias") value - when there is no input drive.
PRE-BIAS: A small current will flow in the tube when the amplifier is keyed on, but there is no modulation.
This will prevent a harsh sound at the beginning of each word, when the EBS is activated and the tube goes
through a non-linear zone, before reaching the correct initial bias.
QSK: is a module that makes possible the antenna switching at very fast rate - typically 3ms switching time
in each direction. Fitted as standard in all DX-3’s.
SOFT START: when switched on, the mains power is gradually applied to the transformer, over a period of
about 5 seconds, to avoid the high in-rush current typical for such high loads.
COOLING: forced air cooling, two fans, two speeds, temperature controlled
OPERATING TEMPERATURE: 0 to 40° Celsius
FUSING: Two 30A normal acting fuses on the rear panel
DIMENSIONS: 435mm wide, 190mm high, 465mm deep
WEIGHT: 18 kg (40 lb) unpacked + Transformer 25 kg (56 lb) unpacked
3 UNPACKING
The DX-3 is packed in a heavy duty package easily sufficient to protect the amplifier during transportation,
even in case of fairly rough handling.
3.1 Opening the carton
When opening the packing, do not cut the carton. Save the packing material for possible further re-use.
Shipment of your DX-3 in other than factory packing may result in non-warranty damage.
3.2 Opening the DX-3 cover
An inspection of the interior of the amplifier should reveal no damage or adversely affected components.
Remove the 4 screws on each side and remove the cover. Should there be any form of problem, notify your
supplier immediately.
3.3 Installing the transformer
Make sure the transformer is wired for the nominal mains voltage in your area. See 7.4
Two people are needed to install the transformer. The best is to put the DX-3 on a flat, smooth surface such as
a bench or a table top, covered by a small carpet of a folded blanket, so that it can be moved by sliding it on
the table.
Remove the screws holding the base plate in the amplifier. Make sure the holes in the plate remain aligned
with the holes in the bottom of the chassis. Lift the transformer and lower it into the chassis, positioned with

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the 12-pin connector towards the front of the amplifier. Put the transformer in at a slight angle (about 10
degrees), so that it does not touch the section of the wire loom between the control board and the front panel
display. Mind also the micro-switch, the front panel switches and the control board at the back. See picture on
page 6.
Move the transformer close to the front panel (do not slide it on the base plate – lift it and move). This will
create more space at the back, so that the high voltage wires can be connected. Plug the two wires from the
high voltage power supply into the 2 pins at the lower part of the transformer. Connect also the 4-way
connector and the orange / black wire.
Move the transformer all the way to the rear, to create more room at the front.
Plug the 16-way connector into the display board. If the wire loom has an 18-way female connector fitted, the
2 bottom positions are not used. Make sure the VIOLET wire is at the top and the GREEN wire at the bottom.
Move the transformer to the middle position, trying to line up the holes in the transformer with the holes in
the chassis and the mounting plate. When the holes line up, pull the amplifier so that it overhangs, about 1/3
on the desk and 2/3 out. Make sure somebody is helping during this operation. The back of a chair of suitable
height can be used to help support the amplifier, but make sure someone else is holding it firmly in position.
Insert the screws and washers from underneath. When all 4 screws are in, tighten them firmly using a large
size Philips screwdriver.
Connect the 2 mains wires to the terminal block of the soft start module. See picture, Page 6.
Put the cover back and the installation is complete.
4 INSTALLATION ENVIRONMENT
4.1 Required environment
The DX-3 amplifier can be operated at an ambient temperature between 0 and 40° Celsius. It should be
installed in a place with good ventilation and protected from the direct sunlight. At least 5 cm (2”) of free
space must be left at the left and right of the amplifier for ventilation. Do not place any object on top of the
amplifier, especially above the ventilation opening.
An environment free of dust, smoke and high humidity is required, as for any high powered RF amplifier.
Dust or particles resulting from burning fire wood or coal could be responsible for sparks or electrical
discharges between the capacitor plates, or in other parts of the RF section.
4.2 Power requirements
When operating at full power, up to 30A from the 240 VAC mains is required. Ensure that the AC supply you
intend to use is fully rated and properly fused. The Emtron "soft start" circuitry ensures that there are no
momentary surges of current at power-up, therefore the fuse does not need to be over-rated. However, the
wiring of the mains supply for the amplifier should be able to handle the power at full load with minimal drop
in the voltage, to insure the performance of your DX-3 does not suffer.
5 REAR PANEL
The following connectors and controls are present on the rear panel
5.1 Power / Earth connections
A wing-nut Earth connection is provided at the rear of DX-3. A good Earth link must be provided here.
Connect this first, before making any other connection to the amplifier. Two fuse holders are fitted along with
30A, normal acting fuses.

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5.2 RF connections
RF INPUT
The RF input is an SO-239 female connector. A 50 ohm coaxial cable line of good quality terminated with a
PL-259 coaxial connector is required to connect the transceiver or exciter output to the input connector of
your DX-3 amplifier.
RF OUTPUT
The RF output is also a female SO-239 connector. The use of a high quality RG-8A/U, RG-213 or similar 50
ohm coaxial cable line terminated with a ‘VHF’ type PL-259 connector is essential. Similarly, a VSWR of
2.6: 1 or better is mandatory. Remember too, that the EMTRON DX-3 amplifier can deliver 3000 W
continuously and up to 4 kW PEP in the SSB mode. Not all antennas can handle such power.
5.3 Transceiver control
ALC
The ALC output is via a black female RCA connector.
This is an ALC system for use with transceivers or transmitters having a negative-going ALC system and
possessing an external ALC input jack. A shielded patch lead with an appropriate connector at one end and a
male RCA connector for the DX-3 at the other end is required. Check the specifications of your transceiver
for a suitable connection.
PTT
The PTT input is a female RCA connector (red). This line controls the transmit / receive switching system.
This jack must be connected to transceiver or exciter relay contacts which are open on RECEIVE and closed
on TRANSMIT. The voltage at the PTT input is typically 28V loaded (up to 35V unloaded), with an
impedance of about 240 ohm. A current of about 0.12 A has to be switched by the transceiver or exciter.
ALC CONTROL
This is a user-accessible control for setting the negative voltage at the ALC output. Further details are given
in section 10.2
6FRONT PANEL
The following controls and indicators are present on the front panel:
6.1 Controls
BAND SWITCH
A nine position switch selects the desired frequency range. The operating bands are indicated in metres.
PLATE TUNE
Tunes the amplifier operating frequency. A chart of approximate starting settings is given in Table-1
LOAD TUNE
Tunes the amplifier output loading. A chart of approximate starting settings is given in Table-1
ON/OFF
Switches the AC power on and off. On initial switch on, the standby mode is enabled. Note also the
appropriate switch down sequence, given in Section 11.
OPR/STBY
Enables the amplifier once it has warmed up. In STANDBY mode, the screen voltage is removed and any RF
power applied to the input, is bypassed to the output. If this switch is changed to OPERATE before the
READY light comes on, the FAULT light will turn on. This is not a fault, but it is better to leave the switch in
STBY position until the amplifier is ready to operate.

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6.2 Displays
All the DX-3 indicators are concentrated in a single, solid state, “moving LEDs” display (See drawing). The
following values are displayed (top to bottom):
Output Power - Scale up to 4 kW, non linear. Yellow LED’s with red indicating power over 3kW.
Reflected Power - Scale up to 500W, non linear. The colour is green, yellow and red, indicating
progressively higher reflected power and possibly problems with your antenna.
Ig2 - Zero-centred display. The left (green) side has a full scale of about 25 mA of negative screen current.
The right (red) side has a full scale of about 50 mA of positive screen current. Above this value, the red LEDs
will flash, warning you to increase the loading, or reduce the drive. At about 60 mA, the protective current
limiting will cut in.
Plate Voltage - Scale up to 3.5 kV, green.
Plate Current - Scale up to 2.4 A. Yellow, with a green zone indicating the standing current bias (when EBS
is disabled only. NOTE: the factory adjustment could be slightly different from the green zone indication).
The area above 2.4 A is red. It indicates excessive plate current, due to high drive level and improper tuning
(especially plate tuning – see “Tuning” chapter, 10.1)
ON Air - single LED, green. When pressing PTT, this LED turns on (while in OPERATE)
READY - single LED, yellow. Turns on at the end of warm-up period, when the mains power to DX-3 is
switched on. It turns off for about 2 minutes if the plate current protection is triggered. In this case, the
FAULT light also turns on.
FAULT - single LED, red. Turns on in 3 situations:
•when the over-temperature protection is triggered, the FAULT turns on until the tube cools to a safe
level. During this time, the operation of the amplifier is disabled, the screen voltage is off and any RF
power applied to the input is bypassed directly to the output.
•when the over-current protection is triggered, FAULT turns on for 2 minutes, while READY turns off
•at DX-3 power up, if the OPR/STBY switch on the front panel is left in OPR position. The FAULT
light will go off when the DX-3 is ready for operation, after warm-up.
SWR - single LED, red. A three second cut-off will happen if your antenna has a SWR worse than 2:1
(typical 2.6:1) at the operating frequency. During the cut-off, the RF from the input is directly by-passed to
the output.
OVER-DRIVE - single LED, yellow. Flashes when the input drive is exceeding the linear operation level. If
even more drive is applied, the overdrive protection will cut off the operation (bypass) for about 2 seconds.
NOTE: the input drive at which the indicator turns on depends on a certain extent on the tuning.
Figure 1. Front Panel Display
RF OUTPUT POWER (kW)
REFLECTED POWER
(
W
)
PLATE VOLTAGE (kV)
PLATE CURRENT (A)
Ig2
OVER
DRIVE
ON AIR
READY
SWR
FAULT

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7 ELECTRICAL CONNECTIONS
7.1 Connections to Transceiver / Exciter
Signal connections
Before making any connections, ensure that DX-3 is not connected to AC power, and the transceiver is not
transmitting. Connect the antenna first to the DX-3 output. Then connect the transceiver output to the DX-3
RF input. Plug the PTT lead into the RCA socket marked PTT on the rear panel. If required, connect the
ALC. (In most cases there is no need for ALC – see 10.2)
The most appropriate interconnection layout is shown in Figure 2 below. In this set-up, the transmit/receive
relays in the DX-3 are controlled directly by the transceiver or exciter.
Figure 2. Connections between DX-3 and Station Transceiver
7.2 Earth and mains connections
Power connections
Before connecting any power to the amplifier, make a good Earth connection to the screw with wing nut at
the rear of DX-3. Make sure the POWER switch on the front panel is in the OFF position. Then plug the
power cable into the power outlet.
7.3 Terminating the power cable (export version)
As different countries have different standards for their power connections, the DX-3 amplifiers exported
from Australia are supplied with an un-terminated power cable.
The green / yellow wire is connected to the amplifier chassis and MUST be connected to the safety ground
of the AC mains supply. It must NEVER be connected to one of the AC “hot” wires. The Brown and Blue
wires connect to the mains transformer inputs. The brown wire is “active” or “live”. The blue wire is the
mains neutral. Both wires are fused.
7.4 Operation at 230V, 220V, 200V (export version)
The Emtron DX-3 will normally arrive pre-set for the power source of the country the amplifier has been sold
to. However if operation to another mains voltage is required, the appropriate connection changes will be
needed.
Figure 3 shows the transformer connections for 200V, 220V, 230V and 240V operation. If a change is
required, this should be done only by a qualified technician, after taking all the necessary safety precautions.
See CAUTION on page 1.
PLEASE NOTE: The DX-3 should not be connected to a mains supply of less than 200VAC!
EMTRON
DX-3 Station
Transceiver
PTT
Relay
Input ALC
PTT
Relay
Output
ALC
(
O
p
tional
)
RF
OUT
RF
IN
RF
OUT
TO ANTENNA

13
Figure 3: TRANSFORMER AC INPUT CONNECTIONS
8DX-3 DESCRIPTION
8.1 RF Section
The RF section occupies the right hand side of the DX-3 (looking from the top - front). See picture in 1.1.
RF Switch and tuned circuits
At the front of the amplifier are two variable capacitors, for plate and load tuning. A 9-position ceramic
switch is employed for the 9 operating bands. Next to the switch is the 40 to 160 metre tank coil. The silver
plated, large diameter copper tube is the 10 to 30 metre tank coil.
RF Sub-chassis
The GU78B tube is positioned on a separate RF sub-chassis. All the connections to the tube, except for the
plate, are under this sub-chassis. A 9-way heavy duty connector is used for the outside connections. The fan
blows air into this sub-chassis, which is forced out through the ventilation fins of the tube. A second fan
above the tube helps by sucking the air out. The air temperature is sensed by 2 sensors placed above the tube
(they can be seen between the fins of the top fan). The sensors must stay in a position close to horizontal.
Make sure you are not pushing them down, too close to the tube, as high voltage exists between them.
240
230220
0
200V:
200
FAN
240
230220
200
0
220
220V:
FAN
240
220
200
0
230
230V:
FAN
240
230220
2000
240
0
240V:
FAN

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The plate is connected to the RF network and to the choke supplying the 3400VDC voltage to the plate of the
GU78B tube.
8.2 Mains transformer
The transformer is the heart of the amplifier, a high performance type, designed to reduce the size and weight.
It is built with a generous reserve of power, handling easily the DX-3 requirements in continuous operation.
The primary can be wired for 200VAC, 220VAC, 230VAC or 240VAC operation. See Figure 3. There are
several secondary windings, as follows:
•Filament supply
•Low voltage supply to the controller board
•QSK module supply
•Bias supply
•Screen grid supply
•High voltage supply
8.3 H. V. Power Supply
A full wave bridge rectifier and filter converts the high voltage AC into high voltage DC with a huge reserve
capacity of 116 microfarads. Two standard Emtron HV modules are paralleled in DX-3.
8.4 Soft start module
At power up, the mains power is gradually applied to the transformer by the soft start module. The power is
gradually applied over a time of about 5 seconds, avoiding the high inrush current typical for such big loads.
8.5 Sensor module
A small metal box positioned at the output of the DX-3. It detects the forward and reverse power, for
measurement and display.
8.6 Antenna relay / QSK module
Fitted as standard in DX-3, the antenna relay is a QSK module, controlled by the transceiver, via the control
board. It switches the antenna between the transceiver, during reception, and amplifier, during transmission. It
is also used to bypass the RF from the transceiver, directly into the antenna, when the amplifier is in standby
mode, or during special conditions like overdrive, bad SWR or other error conditions.
The QSK module uses two very fast, high power vacuum relays, and control circuitry. The purpose of QSK
is to allow very fast switching between transmit and receive, during digital communications. See Appendix 2
showing oscilloscope displays of fast switching times and contact bounce-free operation of the QSK module.
8.7 Display board
This board has a number of inputs where various voltages are connected. The board converts these voltages
into a "moving LED" type of display. Two of these displays have flashing light indication (Ig2 and plate
current).
8.8 Controller board
The brain of the amplifier is the Controller Board. The following circuitry is part of this board:
•Bias voltage regulator, also incorporating a sensitive grid current detector for overdrive detection .
Adjustable pre-bias, removes the distortion at the beginning of the word, when EBS is activated.

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•Screen voltage regulator, with adjustable voltage and adjustable current limiting, for tube protection.
•Overdrive protection and timer - based on detecting grid current, it initially gives visual warning and,
at higher level of overdrive, it cuts off the amplifier for 2 seconds. It ensures a clean signal, making
it virtually impossible to overdrive the DX-3
•SWR detector and timer - switches the amplifier to bypass mode for about 3 seconds when high SWR
is detected. Adjustable SWR level. Factory adjusted to about 2.6: 1
•EBS - the Electronic Bias Switch - senses the presence of RF input power and turns on the bias to start
transmission. Factory adjusted for about 0.5W. When the input power exceeds this limit, the plate
current starts flowing. When there is no speech, even for a very short time, the tube dissipation is cut
to a low value, as set by the pre-bias adjustment.
•Interlocking, timer for filament warm-up
•Relay control: ready relay, SWR relay, over-drive relay, antenna relay
•QSK switching control
•Display control: Ig2 measurement and display, SWR cut-off display, overdrive warning display,
READY display, FAULT display
•Logic circuitry, low voltage supply to the various electronic circuits

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9 POWERING UP
Before switching the power on, check all the necessary connections: Earth, Antenna, Transceiver, PTT, ALC.
Make sure the 2 switches on the front panel are in the positions: OFF, STBY.
Switch now the mains power ON (The power switch to ON position). The "soft start" system will take about 5
seconds to fully turn the power on. SWR light will turn on briefly, then off. Wait for the DX-3 to warm up, until
the READY light turns on.
This takes about 2 - 3 minutes. This warm up time is a minimum. Some extra time is recommended.
WARNING !
WHEN YOU SWITCH THE POWER ON, YOU MUST HEAR AIR FLOW NOISE.
IF THERE IS NO AIR FLOW NOISE, SWITCH THE POWER OFF IMMEDIATELY
AND CONTACT YOUR SUPPLIER.
10 OPERATION
10.1TUNNING PROCEDURE
10.1.1 General
For each band and operating frequency, the transceiver settings must match the position of the BAND switch on
the front panel of the DX-3, while the PLATE and LOAD knobs must be adjusted for optimum operation which
gives – in conjunction with the input drive level, the maximum output power that can be obtained for that input
power. When the tuning is correct, this will also result in a minimum plate current, minimum plate dissipation
and good linearity.
10.1.2 Preliminary tuning
•Turn the BAND switch to the same band setting as the transceiver.
•Put LOAD and PLATE knobs in the initial positions given in Table 1.
•DX-3 must be powered ON and "Ready", with the OPR/STBY switch in OPR position.
•Start with the transmitter at minimum power, in a "carrier" mode e.g. RTTY of CW - key down.
•Key the transceiver ON and gradually apply power to the DX-3. When 0.5 to l W of drive is reached, the
EBS is activated and the plate current jumps from zero to about 0.75 A
•Increase the drive until there is some output power indicated. If the current plate Ip reaches about 1.5 A
and there is still no output indication, turn PTT off and check the connections, the band and the initial
settings.
•As soon as there is any power indication, tune PLATE for maximum output (and minimum plate
current).
•Apply more drive and adjust PLATE again for maximum output. Keep PTT ON for short time only
(about 10 seconds). Go gradually, in several steps. When about 1500W output is reached, adjust LOAD
for maximum output. If there is no red Ig2 indication, it is likely that LOAD needs to be turned
clockwise, towards higher numbers on the dial.
•Apply more drive and adjust both knobs again. When screen current appears (red Ig2 indication),
increase loading by turning anti-clockwise the loading knob. (LOAD towards lower numbers on dial)
until Ig2 drops almost to zero. Then adjust PLATE for maximum output power and maximum Ig2. At
this point, Ig2 is the most sensitive indicator of resonance on the working frequency. If Ig2 goes too
high (e.g. starts blinking), increase the loading again, then tune PLATE.

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•Repeat the above steps, while gradually increasing the input drive power, until the overdrive indicator
just starts turning on. Now the DX-3 is tuned for operation at full power on that particular operating
frequency.
NOTES:
1. The maximum power is obtained from a DX-3 when:
onset of the overdrive indication
PLATE is tuned for maximum output power, maximum screen current Ig2 and minimum plate current, Ip
Ig2 indicator shows 2 to 4 red LEDs.
2. The above conditions will also give the best linearity.
3. During the preliminary tuning, switch PTT on and off several times, to allow time for tube cooling. The tube
dissipation (at a given drive level) is minimum when tuning is optimum. In short, be brief, with tuning "bursts".
4. Preliminary tuning, as described above, is only necessary when operating for the first time in a certain band.
When the final settings for PLATE and LOAD have been found for the particular working conditions -
especially the antenna used, note your settings on Table 1. The new settings will normally differ to some extent
from the ones indicated, depending on the "purity" of your antenna load.
10.1.3 Final tuning
Once the preliminary tuning has been done for each band / antenna combination, the values found for PLATE
and LOAD can be used for final tuning, with no need to repeat the preliminary tuning every time.
Tuning for full power
•Start with low drive level and the PLATE and LOAD knobs in the known initial positions
•Put PTT ON and increase the power (fairly quickly), to the onset of the overdrive indication. If the
screen current (red Ig2) goes too high, adjust LOAD, by turning the knob to the left (increasing the
load).
•Adjust the drive level and LOAD until the overdrive indicator is just about to turn ON, and at the same
time Ig2 shows two or three red LED's ON.
•Fine tune PLATE for maximum output and maximum Ig2. Repeat the step above if required.
Tuning for less than full power
•Start at low power, with the initial values for PLATE and LOAD
•Put PTT ON and apply drive until the output is about 1/2 of the desired power.
•Adjust LOAD for maximum output. Most likely, the knob will have to be rotated to the right, towards
higher numbers on the dial.
•Adjust PLATE for maximum output
•Apply more power
•Repeat the 3 steps above until the required power is achieved. If screen current is indicated by Ig2, is
should, display one to three red LED's. Maximise this Ig2 indication (and the output power at the same
time), by tuning PLATE
Please note that the tuning at lower power is different from the setting at full power (especially LOAD).
•If the output goes higher then desired, reduce the drive and re-tune. Never reduce the output by de-
tuning the amplifier!

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NOTE: If the output is low (say, less than about 1500W), Ig2 will never show any screen current at all. Ig2
might even indicate a negative current, in green - this is normal and is no cause for concern).
However, if there (green) negative current indication, usually this will go away with better tuning of the PLATE
control.
If there is no Ig2 red indication, simply rotate LOAD to the right in small steps, and each time maximise the
output by turning PLATE, until the highest possible maximum in the output power is achieved.
10.1.4. Potential problems during tuning
The tuning operation should be completed fairly quickly. If the tuning process takes a longer time, it should be
done by switching the transmission on and off several times, to allow the tube time to cool.
•If the FAULT light comes on, it is possible that the plate current has reached too high values due to
incorrect plate tuning. In this case, reduce the excitation power, wait for the FAULT light to turn off
(about 2 minutes) and resume tuning.
•If the overdrive protection is activated, by cutting off the amplifier for 2 seconds. It is likely in this case
that you are applying too much power at the input. Reduce the power and watch the "overdrive" LED.
Increase the power only until this light starts flashing.
•If the overdrive protection is activated at low power – this could be due to incorrect loading. Turn the
LOAD control clockwise and tune PLATE. Increase the drive and repeat in small steps. A lack of screen
current (red Ig2 display) is an indication that the loading is incorrect.
•If the SWR protection cuts in - it is likely that your antenna is not a good 50 ohm match at the operating
frequency. In principle, the SWR protection level in DX-3 is adjustable, but it is far preferable for you to
fix your antenna.
10.2 ALC ADJUSTMENT
The DX-3 can be operated without any ALC connection. However, if you wish to use it, and your transceiver
has an ALC input, then the potentiometer on the rear panel must be adjusted. This adjustment is not critical,
since its voltage output is zero under normal operation and it increases sharply (towards a negative value - up to
-11 V), when the overdrive limit is approached. The ALC in DX-3 amplifier is not a conventional design, this
circuit operates for only one reason - to prevent overdriving and to keep the signal clean.
To adjust the ALC potentiometer:
Turn the potentiometer initially all the way to the right (minimum ALC voltage)
In CW mode, after tuning, apply increasingly higher drive, until the "overdrive" LED just starts to turn on
Increase the drive slightly more, to have the light fully on, but make sure the DX-3 overdrive protection does
not cut you off. At this power level, adjust the ALC potentiometer to the left, until the transceiver drops its
power output.
Alternatively, in voice mode, increase the RF gain or the microphone gain until the overdrive led is flashing at
peak of modulation. Then, increase ALC (rotate potentiometer to the left) until the transceiver begins to limit the
drive to DX-3.
NOTE: Some types of transceivers (e.g. YAESU FTI00MP, FT920 and others) are not compatible with this
type of ALC. They require an ALC signal proportional with the output power. DX-3's ALC is zero until the
drive reaches the over-drive limit, when the negative voltage increases sharply. YAESU operating manual
indicates that this type of ALC might not work well with their transceivers, since grid current could be
generated by amplifier mis-tuning not related to excessive drive conditions. If this is the case, simply do not
connect it.

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10.3 USING YOUR DX-3
While tuning and adjusting the amplifier, a CW mode is normally used. When these operations are finished, you
can change to the operating mode you wish to use and start operating.
10.3.1 CW / RTTY and all digital modes
In CW, the setting up of the amplifier is similar to that of the tuning mode. After adjusting the input power level
to the amplifier, according to the desired output level, and tuning the plate and load capacitors, you can simply
start operating by applying the same carrier level as during tuning. If the amplifier is set to deliver full output
power, or close to, then screen current will be present. As in the case of tuning, the best operation is achieved
when there is a certain amount of screen current flowing, corresponding to two or three red LED's turning on in
the Ig2 display.
10.3.2 Voice modes (SSB)
When a voice modulation is applied to the amplifier, the drive level is not precisely defined, as in the case of
tuning with continuous carrier. If there is screen current flowing, or an input overdrive, they will be indicated
only at peak of modulation, by the respective indicators flashing. You will have to adjust the microphone gain,
or the RF drive, or both, in an attempt to achieve input driving conditions similar to those you have used while
tuning. Occasional flashing of the overdrive indicator is acceptable. If the over-driving is severe, a momentary
cut-off will occur.
10.3.3 Hints on good linearity and efficiency
Operating with good efficiency:
If you are watching the plate current indicator, you must be aware that the total power the amplifier is drawing
from the mains is proportional to the plate current. Power that is not sent to antenna, is dissipated by the tube.
As explained in the Tuning section, the best tuning achieves a maximum power output at the same time with a
minimum plate current, drastically minimising the tube dissipation. Be aware that at a low power level, slightly
different tuning is required than is for full power.
Achieving the best linearity:
The amplifier must be tuned and operated all the time in the linear mode. This is important because a non-linear
operation will generate harmonics which will disturb RF communications in other bands and frequencies.
We must distinguish two situations:
Less than full power.
With less then full power (say 2000W or less), correct tuning, no screen current and no input overdrive
indication, you will always have your DX-3 operating with a good linearity and clean signal.
Full power operation.
At full power, there are two things that must be watched to see when you reach the limit of linear operation: the
screen current, Ig2, and the grid current, indicated by the "Over-drive" LED.
In this case a good linearity is maintained up to the moment when the screen current is approaching the full
scale value of the Ig2 indicator and it starts flashing, or when the overdrive indicator fully turns on.
A high screen current, indicated by 4 LED's on in the Ig2 display, will create a moderate level of distortion.
Even a small amount of grid current will cause severe distortion. When the "Over-drive" indicator just begins to
turn on, there is a very small amount of distortion, created by a grid current of about 100 microamperes.
With this indicator flashing, you are at the limit of the RF carrier clipping. This is probably more acceptable in a
voice mode of operation. In CW or digital modes, the best is to slightly reduce the drive, just below this level. A
severe level of over-driving is not possible anyway, due to the cut-off protection. The cut-off will happen at
about 400 microamperes of grid current. See the Appendix 2 and the Troubleshooting section for oscilloscope
displays showing examples of a two tone generator driving the DX-3 in linear mode, and an overdrive situation,
when a DX-3 with the overdrive protection disabled is being overdriven by the two-tone generator.

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The Ig2 indicator should have three to four LED's flashing on at peak of modulation. This (combined with a
correct plate tuning), indicates an optimum loading, good efficiency and good linearity. A lower screen current,
due to excessive loading, will reduce the output power, with an equal amount of extra power dissipated by the
tube. A higher screen current, making all four LED's in the Ig2 flashing, will increase the distortion.
11 SWITCHING THE POWER OFF
When you have finished using the amplifier and you want to switch it off, the following procedure is
recommended: Stop transmitting. Put the switch on STBY. Leave the DX-3 running idle for a few minutes, to
cool the tube, then switch the power off.
12 TROUBLESHOOTING - If something goes wrong
12.1 No power
When you switch on a DX-2, it takes about 3 - 5 seconds for the lights on the front panel display to come on.
This is due to the "soft start" circuit. If nothing happens after turning the power on, switch off at the front panel,
then check the following:
make sure the power point has power
make sure the power plug is fully pushed in into the power outlet.
If it is still not working, unplug the power cord from the mains, then remove the fuses from the fuse holders on
the rear, panel of DX-3 and check them with an ohmmeter. If a fuse is blown, replace it with a fuse of the same
type and try again. If the fuse blows again, or if the fuses were not blown in the first place, contact your
supplier.
12.2 Fan not working
As soon as you switch the power on, you should notice two things about your DX-3: the display should indicate
about 3400V of plate voltage and you should be able to hear the fan running. The amplifier is not supposed to be
powered without the fan, even in idling mode. If the fan does not operate when you power up, or if it stops
while using the amplifier, switch the mains power off immediately and contact your supplier.
12.3 If the FAULT light turns on
The FAULT (red) light turns on in two situations:
Over-current in the plate circuit
This could happen due to a flash-over in the tube, or as a result of a momentary high plate current during tuning.
This completely disables the amplifier for about 2 minutes. The same timer is activated as when the amplifier is
switched on, causing the READY light to turn off. If the front panel is put on STBY, the FAULT will turn off,
but the READY will be also off. When the READY comes on again, the FAULT will disappear (if the amplifier
was left in OPR), and the DX-3 is ready to operate again, after putting the switch on OPR.
Over-temperature cut-off. See below.
12.4 Over-temperature cut-off
The operation of the amplifier is disabled, but the timer is not activated. When the tube cools down, the FAULT
light turns off, READY turns on and the operation can resume. DX-3 has a very efficient air cooling system.
When the ventilation is not restricted, in normal ambient conditions, when properly tuned, a DX-3 can operate at
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