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©2000 Hamtronics, Inc.; Hilton NY; USA.  All rights reserved.  Hamtronics is a registered trademark.    Revised: 11/27/01 

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GENERAL INFORMATION. 

The Power Amplifier is a class C 

device designed to be installed as an 
integral part of a transmitter enclo-
sure in a repeater installation with a 
2 Watt exciter module.  It is designed 
to operate over a range of 140-175 
MHz and put out 25-30W. 

The Power Amplifier operates on 

+13.6 Vdc at about 5 Amp.  It has a 
50-ohm input and output impedance 
and is designed for continuous duty.  

A low-pass filter reduces har-

monic output to very low levels. 

CONSTRUCTION. 

General. 

Most of the pertinent construction 

details are given in the component 
location and schematic diagrams and 
parts list.   

All parts are tack soldered to the 

pc board; so it is necessary to cut and 
form leads so that they seat properly 
on the board and be sure to keep 
leads as short and direct as possible.  
This is especially true of the disc ca-
pacitors.  Figure 1 shows how to trim 
and form the leads of capacitors. 

PCB, Transistor, and Heatsinking. 

This series of power amplifiers is 

designed to be mounted in an rf tight 
enclosure with the exciter in such 
applications as our REP-200 Re-
peater.  The unit is supplied less 
heatsink and mounting hardware, 
since the enclosure acts as a 
heatsink and the hardware normally 
is provided with the repeater kit. 

 If you have purchased the PA for 

some other use or mounting method, 
it is important to assemble and use 
the unit as we do in the repeater to 
avoid damage to the transistor by 
pulling the leads off the ceramic 
case.  The pa is designed to have the 
thickness of a standard 4-40 nut 
(about 0.100 inch) as a spacer be-
tween the pc board and the chassis 
on which the transistor is mounted. 

a.  If you are supplying your own 

enclosure, mark and drill four clear-
ance holes for mounting the board 
with 4-40 screws and one 8-32 clear-
ance hole to mount the transistor in 
the center of the cutout in the board.  
The latter hole must be close to the 
diameter of the xstr stud to provide 
maximum surface for the shoulder of 
the transistor to contact the chassis 
for heatsinking; so do not make this 
hole oversize. 

b.  Install four 4-40 x 3/8 inch 

screws from the bottom of the enclo-
sure and secure with 4-40 nuts. 

c.  Set pc board over screws, and 

align so cutout for transistor is cen-
tered over hole in enclosure.  Secure 
the board with 4-40 nuts and lock-
washers. 

d.  Carefully open the package of 

heatsink compound with scissors.  
Use a toothpick or small piece of wire 
to apply a small amount of compound 
to the shoulder of  the transistor 
where it contacts the heatsink. 

e.  Set the transistor in place, and 

orient the notched collector lead to 
the right as shown.  Secure transis-
tor with #8 lockwasher and 8-32 nut.  
Do not overtighten nut; tighten only 
to the point of being snug.  Hold tran-
sistor leads with fingers to prevent 
rotation.  If leads still rotate, you are 
probably applying too much torque.

 

Note:  Since heatsink compound is 

used, it is unnecessary to use a lot of 
torque, which could break the stud.

 

f.  Form the transistor leads down 

against the board.  Then, tack solder 
them to the foil, using sufficient sol-
der so that a bond is formed under 
the full length of the leads.  Note that 
other parts will be soldered on top of 
the base and collector leads; so it 
helps to  thoroughly flood those leads 
with solder. 

Installing Capacitors. 

a.  Cut tabs (if any present) on 

variable mica capacitors C8 and C9 
as shown in figure 1 unless already 
cut off at factory.   (Some capacitors 

come already trimmed.)  Solder them 
to the board in the exact positions 
shown in figure 2.  Mount the capaci-
tors oriented as shown so the rotor 
screw is connected to the proper side 
of the circuit (as shown in fig. 2). 

b.  Bend the leads of C2 and C3 

gently at a 90° angle, and solder 
them as shown.  Make sure the 
round end of C2 goes to ground. 

c.  Form the leads of C1 close to 

the body, as shown in figure 1, and 
tack solder on the board. 

d. Tack solder C4-C5, bending the 

leads at right angles, and keeping 
them as short as possible, as shown 
in figure 1.  It is important to angle 
the capacitors as shown in figure 2 
and position them as close as possi-
ble to the body of the transistor.  The 
idea is to connect them electrically 
as close as possible to the emitter 
and base terminals or the emitter 
and collector terminals.  In fact, they 
should be soldered on top of those 
leads. 

e.  Tack solder 27 ohm resis-

tors R3 and R4 directly across C4 
and C5.  (They are not shown in the 
drawings.) 

e.  Tack solder C13 and C14 as 

shown, bending the leads at right an-
gles, and keeping them as short as 
possible.  Position the capacitors as 
shown in figure 2. 

f. Form the leads of C10 and C11 

close to the body, as shown in figure 
1, and tack solder on the board with 
short leads.  Be careful not to stress 
the leads of the capacitors too much 
to avoid breakage. 

g.  Tack solder electrolytic capaci-

tor C12.  Bend the leads at right an-
gles, and observe polarity. 

RF Choke and Ferrite Beads. 

a.  Ferrite choke Z2 is threaded 

with 2½ turns of #22 bus wire, as 
shown in the detail, by feeding the 
wire through opposite holes and pull-
ing tight.  One hole will not be used.  
Be sure to wind the wire around and 
around through the holes as shown.  

HAMTRONICS® LPA 2-25R REPEATER POWER AMPLIFIER: 

ASSEMBLY, INSTALLATION, & MAINTENANCE 

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