Ramsey Electronics FR-10 User guide
FR-10 ?28
FR-10 10 Meter FM Receiver Kit
Quick Reference Page Guide
Introduction to the FR-10.............. 4
Circuit Description........................ 5
Parts List...................................... 6
Simplified Block Diagram.............. 8
Parts Layout Diagram................... 9
FR-10 Assembly Instructions........ 11
Schematic Diagram...................... 14
Testing and Alignment.................. 20
Enclosure Ideas............................ 23
Troubleshooting Guide................. 24
Notes for Advanced Users............ 25
Ramsey Kit Warranty.................... 27
Price: $5.00
Ramsey Publication No. FR-10
Assembly and Instruction manual for:
RAMSEY ELECTRONICS, INC.
793 Canning Parkway
Victor, New York 14564
Phone (716) 924-4560
Fax (716) 924-4555 Printed on recycled paper
REQUIRED TOOLS
?Soldering Iron (Radio Shack #RS64-2072)
?Thin Rosin Core Solder (RS64-025)
?Needle Nose Pliers (RS64-1844)
?Small Diagonal Cutters (RS64-1845)
?<OR> Complete Soldering Tool Set
(RS64-2801)
ADDITIONAL SUGGESTED ITEMS
?Soldering IronHolder/Cleaner (RS-64-
TOTAL SOLDER POINTS
232
ESTIMATED ASSEMBLY
TIME
Beginner..............6.8 hrs
Intermediate ........3.9 hrs
Advanced............2.9 hrs
FR-10 ?1
10 METER FM
RECEIVER KIT
Ramsey Electronics Model No. FR-10
Check out the 10 meter action with this simple and fun
to build FM receiver. Receive crystal-clear signals from
thousands of miles away! Ten meters is a fascinating
band! Tune the entire 10 Meter band or the VHF low
Police and Fire band.
?Tunes any 5 MHz portion of the 25 to 35 MHz band.
?Excellent performance, less than 1 uV sensitivity.
?Tuned input, low noise preamp stage.
?True Dual-conversion superhet design with 2 pole
Ceramic High IF and 6 pole Ceramic low IF filters!
?Front Panel Volume, Squelch, and Tuning controls.
?Excellent receiver for beginners and seasoned pros!
?Informative manual answers questions on theory,
hook-ups, and uses -enhances resale value, too!
?Add our case set for a finished ‘Pro’ look. Cases match
all Ramsey products.
?Clear, concise assembly instruction carefully guides
you to a finished kit that works the FIRST time!
FR-10 ?2
RAMSEY TRANSMITTER KITS
??FM-10, 25 FM Stereo Transmitters
??FM-1,2,3,4 FM Wireless Microphones
??PB-1 Telephone Transmitter
RAMSEY RECEIVER KITS
??FR-1 FM Broadcast Receiver
??AR-1 Aircraft Band Receiver
??SR-1 Shortwave Receiver
??AA-7 Active Antenna
??SC-1 Shortwave Converter
RAMSEY HOBBY KITS
??SG-7 Personal Speed Radar
??SS-70 Speech Scrambler
??TT-1 Telephone Recorder
??SP-1 Speakerphone
??MD-3 Microwave Motion Detector
??PH-10 Peak hold Meter
??LC-1 Inductance-Capacitance Meter
RAMSEY AMATEUR RADIO KITS
??FX Series VHF and UHF Transceivers
??HR Series HF All Mode Receivers
??QRP Series HF CW Transmitters
??CW-700 Micro Memory CW Keyer
??PA Series VHF and UHF Power Amplifiers
??Packet Computer Interfaces
??QRP Power Amplifiers
RAMSEY MINI-KITS
Many other kits are available for hobby, school, Scouts and just plain FUN.
New kits are always under development. Write or call for our free Ramsey
catalog.
FR-10 10 METER FM RECEIVER KIT INSTRUCTION MANUAL
Ramsey Electronics publication NO. MFR-10 Rev. E
First printing: January 1992
COPYRIGHT 1992 by Ramsey Electronics, Inc. 793 Canning Parkway, Victor, New York
14564. All rights reserved. No portion of this publication may be copied or duplicated without the
written permission of Ramsey Electronics, Inc. Printed in the United States ofAmerica.
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FR-10 ?27
The Ramsey Kit Warranty
Please read carefully BEFORE calling or writing in about your kit. Most
problems can be solved without contacting the factory.
Notice that this is not a "fine print" warranty. We want you to understand your rights and ours too! All
Ramsey kits will work if assembled properly. The very fact that your kit includes this manual is your
assurance that a team of knowledgeable people have field-tested several "copies" of this kit straight
from the Ramsey Inventory. If you need help, please read through your manual carefully, all
information required to properly build and test your kit is contained within the pages!
1. DEFECTIVE PARTS: It's always easy to blame a part for a problem in your kit, Before you conclude
that a part may be bad, thoroughly check your work. Today's semiconductors and passive components
have reached incredibly high reliability levels, and it’s sad to say that our human construction skills
have not! But on rare occasions a sour component can slip through. All our kit parts carry the Ramsey
Electronics Warranty that they are free from defects for a full ninety (90) days from the date of
purchase. Defective parts will be replaced promptlyat our expense. If you suspect any part to be
defective, please mail it to our factory for testing and replacement. Please send only the defective part
(s), not the entire kit. The part(s) MUST be returned to us in suitable condition for testing. Please be
aware that testing can usually determine if the part was truly defective or damaged by assembly or
usage. Don't be afraid of telling us that you 'blew-it', we're all human and in most cases, replacement
parts are very reasonably priced.
2. MISSING PARTS: Before assuming a part value is incorrect, check the parts listing carefully to see
if it is a critical value such as a specificcoil or IC, or whether a RANGE of values is suitable (such as
"100 to 500 uF"). Often times, common sense will solve a mysterious missing part problem. If you're
missing five 10K ohm resistors and received five extra 1K resistors, you can pretty much be assured
that the '1K ohm' resistors are actually the 'missing' 10 K parts ("Hum-m-m, I guess the 'red' band
really does look orange!") Ramsey Electronics project kits are packed with pride in the USA. If you
believe we packed an incorrect part or omitted a part clearly indicated in your assembly manual as
supplied with the basic kit by Ramsey, please write or call us with information on the part you need and
proof of kit purchase
3. FACTORY REPAIR OF ASSEMBLED KITS:
To qualify for Ramsey Electronics factory repair, kits MUST:
1. NOT be assembled with acid core solder or flux.
2. NOT be modified in any manner.
3. BE returned in fully-assembled form, not partially assembled.
4. BE accompanied by the proper repair fee. No repair will be undertaken until we have received the
MINIMUM repair fee (1/2 hourlabor) of $18.00, or authorization to charge it to your credit card
account.
5. INCLUDE a description of the problem and legible return address. DO NOT send a separate letter;
include all correspondence with the unit. Please do not include your own hardware such as
non-Ramsey cabinets, knobs, cables, external battery packs and the like. Ramsey
Electronics, Inc., reserves the right to refuse repair on ANY item in which we find excessive
problems or damage due to construction methods. To assist customers in such situations,
Ramsey Electronics, Inc., reserves the right to solve their needs on a case-by-case basis.
The repair is $36.00 per hour, regardless of the cost of the kit. Please understandthat our technicians
are not volunteers and that set-up, testing, diagnosis, repair and repacking and paperwork can take
nearly an hour of paid employee time on even a simple kit. Of course, if we find that a part was
defective in manufacture, there will be no charge to repair your kit (But please realize that our
technicians know the difference between a defective part andparts burned out or damaged through
improper use or assembly).
4. REFUNDS: You are given ten (10) days to examine our products. If you are not satisfied, you may
return your unassembled kit with all the parts and instructions and proof of purchase to the factory for a
full refund. The return package should be packed securely. Insurance is recommended. Please do not
cause needless delays, read all information carefully.
FR-10 ?26
If you've enjoyed this kit, be sure to check out the entire Ramsey kit line.
We have a whole series of nifty synthesized VHF FM Transceiver kits
that not only teach state-of-the-art technology, but are fun and easy to
build, too! Call or write for our catalog.
FR-10 ?3
FR-10 10 METER
FM RECEIVER KIT
Ramsey Publication No. MFR-10
Price $5.00
TABLE OF CONTENTS
Introduction to the FR-10............... 4
Circuit Description......................... 5
Parts List....................................... 6
Simplified Block Diagram............... 8
Parts Layout Diagram.................... 9
FR-10 Assembly Instructions......... 11
Schematic Diagram....................... 14
Testing and Alignment................... 20
Enclosure Ideas............................. 23
Troubleshooting Guide.................. 24
Notes for Advanced Users............. 25
Ramsey Kit Warranty..................... 27
KIT ASSEMBLY
AND INSTRUCTION MANUAL FOR
RAMSEY ELECTRONICS, INC.
793 Canning Parkway
Victor, New York 14564
Phone (716) 924-4560
Fax (716) 924-4555
FR-10 ?4
INTRODUCTION
There's not a lot to say about using the FR-10 receiver once its been
correctly built and aligned. If 10 meters is "dead" you'll hear little or
nothing. If Ten is "open" there will be an amazing variety of crystal-
clear signals from many thousands of miles away.
In the first serious test of this receiver, booming signals from the US
Northeast and Midwest as well as Scotland and Ireland were logged
from a site in Florida! The strength and clarity of GM4DLU in Scotland
was simply astounding! Another listening session logged a station in
Washington, DC conversing with one in Wisconsin via a repeater in
Dallas!
This receiver is a good project for amateurs wishing to become more
familiar with 10 meter FM before choosing a transceiver, or for those
active on 10 who want an inexpensive receiver to take on trips, keep
in a briefcase or to watch for band openings.
Most Ramsey Electronics can be classified as "Skill Level 1" if we use
the old Heathkit guidelines for ease of assembly. That means that our
kits are intended to be successful for first-time kit builders. This FR-10
FM Receiver is best regarded as a "Skill Level 2" project, and should
not be taken lightly, even by experienced, licensed radio amateurs.
Still, this step-by-step manual is written with the beginner in mind,
because we are well aware of the fascination that Ten Meters and its
maze of repeaters holds for newcomers, which means this could be
your very first kit project. The same holds true for those who just want
to peek in on LOW VHF public service communications without the
cost of a scanner. To be honest, we'd like to see first-time builders
start out with an easier kit such as the Ramsey HR-40 Forty Meter
receiver before assembling the FR-10, but we are confident that you
can construct the FR-10 successfully if you follow this manual
carefully and patiently.
Before beginning the project or even studying the circuit description, it
is worthwhile to develop some prior respect for how much receiver is
packed onto the circuit board. The nine semiconductor devices
(diodes, transistors and IC chips) give the equivalent of about 30 or
more transistors and diodes. And, in addition to four inductors, a
FR-10 ?25
receivers do not offer much PC board space or real need for
customization or other modifications. These receivers do what they are
intended to do at the lowest price that we are aware of for a tunable
VHF FM receiver with squelch, AFC and generous audio output.
Therefore, while we are certainly interested in hearing about significant
performance improvements, we do not recommend casual modification
attempts.
However, there is one practical customization which could be
undertaken by experienced VHF experimenters who wish to take
advantage of the NE602's ability to accept a crystal resonator instead of
the existing L-C tank circuit. The goal would be a one channel repeater
monitor or dedicated packet receiver. Inductor L3 and associated
capacitors would be replaced by the appropriate crystal tank
components. Remember that the crystal oscillator should be planned to
operate 10.7 MHz above the desired receiving frequency. Please do not
attempt such a project unless you have a clear knowledge of oscillator
design and have reviewed and understood the terms of your Ramsey Kit
Warranty. We regret that the factory cannot offer any assistance in
performing this or any other modification, so... you're on your own, but
that's what experimenting is all about!
A helpful article on the Signetics NE602 IC, including a discussion of
crystal-controlled oscillator configurations, was written by Michael A.
Covington with acknowledged assistance from Signetics personnel,
published with good circuit illustrations in Radio-Electronics magazine
for April 1990 (Vol 61, No 4).
A less complex approach to the same general goal, eliminating the
expense of a crystal and the logistics of adding it to the PC board, is to
"undo" the excellent tuning range we designed into your receiver! This
would require selecting appropriate values for C9,C10 and C12 and
reducing the effect of the varactor tuning to perhaps a 100 KHz swing
for fine tuning purposes only. Try reducing C12 to 1 or 2 pF for starters.
Finally, the only pin of the MC3359 not used in our circuit is pin 15, for
scan control. Perhaps you will come up with some fascinating idea for it!
Again, please be sure that you understand your warranty, and that you
understand your receiver and how to keep it working, before attempting
any modifications.
FR-10 ?24
The Ramsey FR-series FM receivers are among our most widely-used
and popular kits. The circuit itself, assembly and use are "cut-and-dried."
If your receiver does not work, there is probably either an error in
assembly or a defective part. Following is some help in case you
experience difficulty.
Problem: Receiver completely "dead"-no sound at all.
Check the following:
?First, the cable or plug adapter leading to speaker or phones!
?Battery condition and battery wire polarity and soldering at S1.
?Connections associated with U3, the LM386 audio output IC.
Problem: Receiver "hisses", but NO signals are heard, not even a signal
generator 2 inches away.
First, you need to verify that the local oscillator (NE602, L3, etc.) is
operating. Use another VHF receiver or a frequency counter to verify
oscillator operation. Next, make sure that the 10.24 MHz crystal oscillator
is running by tuning a general purposeHF ("shortwave") receiver to that
frequency. If either oscillator is not running, re-check correctness of parts
and solder joints associated with both oscillator circuits. Further signal-
path tracing may be necessary to find your problem.
Problem: Very weak signals
If Q1 is defective or incorrectly installed, very little signal energy will
reach the NE602. If Q2 is defective or installed incorrectly, very little of
the NE602's 10.7 MHz output is getting to the MC3359. Also, be sure that
L4 is peaked correctly.
Problem: Considerable frequency drift or shifting
First, make sure that L3 is soldered securely to the PC board. If you plan
to use the receiver "on the go", you may wish to secure the base of the
coil to the board with reinforcing glue. If the receiver drifts, check all
wiring and components associated with AFC Q3and pin 11 of the
MC3359.
Problem: Squelch does not function
Re-check all connections and components associated with pins 10
through 16 of the MC3359. Check polarity of C27 and D2. C27 sets the
time constant for the squelch circuit.
SOME NOTES FOR ADVANCED USERS
Unlike Ramsey HF receivers and transmitters, the FR-series of VHF FR-10 ?5
crystal and two ceramic filters, there are nearly 60 capacitors and
resistors. Surely, all that should result in a decent receiver! You could
easily spend twice the money plus hours of time trying to gather the
equivalent parts from catalogs and still need to make your own circuit
board.
BUILDING YOUR FR-10 KIT
There are just over 200 solder connections on the FR-10 printed circuit
board. That means your work could be 99% excellent and you could
STILL have 2 or 3 cold solder points or solder bridges. Since this circuit
is more sophisticated than a direct-conversion HF receiver or a simple
transmitter, a beginner or casual amateur could have a harder time
tracing a problem due to a poor solder connection. Therefore, PLEASE
take us seriously when we say that good soldering is essential to the
proper operation of your receiver!
?Use a 25-watt soldering pencil with a clean, sharp tip.
?Use only rosin-core solder intended for electronics use.
?Use bright lighting. A magnifying lamp or bench-style magnifier may
be helpful.
?Do your work in stages, taking breaks to check your work.
?Carefully brush away wire cuttings so they don't lodge between
solder connections.
FR-10 CIRCUIT DESCRIPTION
VHF signals from the antenna are amplified through the tuned input
circuit (L1,C3 and L2,C4) by Q1, a microwave bipolar transistor. Q1's
output is fed to the input of the NE602 IC, an efficient single-package (8-
pin DIP) mixer-product detector-oscillator. The tunable oscillator section
of the NE602 is aligned to operate at 10.7 MHz higher than the signal
fed and amplified by Q1. For example, to receive 222-227 MHz signals,
the oscillator must tune 232.7 to 237.7 MHz in order for the NE602's
mixing capability to produce a steady 10.7 MHz output signal to the rest
of the circuit. The oscillator frequency is determined by L3 and its
associated capacitors, and varied by the varactor tuning network using
D1 and varied by R1.
The output from pin 4 of the NE602 passes through a ceramic 10.7 MHz
filter, amplified by transistor Q2 and applied to input pin 18 of U2. Q3
provides AFC (automatic frequency control) by keeping the local
FR-10 ?6
oscillator of U1 from drifting away from an incoming signal. This is
accomplished by tuning the varactor circuit in the direction opposite the
drift.
The MC3359 IC has an internal oscillator controlled by the 10.24 MHz
crystal. The 10.24 MHz signal is mixed with the 10.7 MHz input from U1
to convert down to the low IF of 450 KHz. The 450 KHz IF is filtered by
FL2 and then amplified by a limiting amplifier in U2. Audio demodulation
takes place in the quadrature detector, with L4 adjusting the detector.
The audio modulation is detected in U2, and the background noise is
used to control the squelch. U3 amplifies the audio output from pin 10 of
U2 to a practical level for speaker or headphone operation. Pin 16 of U2
will ground the input of U3 when the squelch is closed.
L4, a 450 KHz IF coil, permits adjustment of the 90-degree voltage-
current phasing ("quadrature") of FL2's output to the FM detector
demodulator (pin 8 of the MC3359).
PARTS LIST
Inductors
?2 .33 uH inductors [looks like a resistor with 2 orange and 2 silver
bands] (L1,L2)
?1 slug-tuned coil [blue color] (L3)
?1 shielded transformer coil [marked LB 53303] (L4)
Semiconductors and IC's
?1 2SC2498 or 2570 transistor (Q1)
?3 2N3904 transistor (Q2,Q3,Q4)
?1 NE602 8-pin IC (U1)
?1 MC3359 18-pin FM receiver IC (U2)
?1 LM386 8-pin audio amplifier IC (U3)
?1 Varactor diode, MV2209 [looks like a transistor with two leads]
(D1)
?1 1N4148 signal diode (D2)
Special Components
?1 10.24 MHz Crystal (Y1)
?1 10.7 MHz ceramic filter [brown, molded, 3 leads] (FL1)
?1 450 KHz ceramic filter [black, square] (FL2)
FR-10 ?23
about 6 ma, how long will your battery last if you leave your receiver on
for a few days, just like we leave our computers and Ham or computer
accessories on all the time?
(2) We thought you'd have more fun planning and installing your own
lamp that glows in the dark!
(3) We could not decide which color you would like best!
THE RAMSEY ELECTRONICS CASE, KNOB & HARDWARE
OPTION
Your finished receiver can be installed in a variety of enclosures of your
own design and choosing. You might be planning to combine several
Ramsey circuit boards in a single enclosure. Use of the inexpensive
and attractive Ramsey case and knob kit will give your unit that finished
look and increase its resale value. These sturdy black instrument cases
are supplied with neatly-lettered front and rear panels, knobs, rubber
feet and mounting screws.
OTHER ENCLOSURE RECOMMENDATIONS
While we believe that the Ramsey enclosure and knob option is a fine
value for finishing off your Ramsey receiver or transmitter, we are happy
to give you a couple of additional suggestions. If your first goal is
economy and rugged portability, you will find that the circuit board can
be mounted nicely in a standard VHS videotape storage box, which also
gives room for a speaker, or earphone storage, and even a roll of
antenna wire. The controls are easily mounted at one end of such a box.
It may be necessary to cut away the molded posts which secure the
tape cassette itself. These storage boxes come in several styles, so pick
one that looks truly practical as a project enclosure.
To accomplish RF shielding, the most economical metal enclosure
nicely suited for Ramsey amateur kit boards is Radio Shack No. 270-
253A. This metal utility cabinet can accommodate both a receiver and
transmitter board, plus speaker, with room for various refinements you
might like to add.
FR-10 TROUBLESHOOTING GUIDE
FR-10 ?22
A special note to newcomers: Ten meters is generally a daylight hours
band. If you finish your receiver at midnight, please wait until after
sunrise before expecting to hear much of anything!
RECEIVER SENSITIVITY
Your FM receiver features sensitivity under 1 uv. Radio Hams constantly
marvel at how an FR-10 displayed at hamfests tunes in dozens of hand-
held QSO's on the premises without an antenna connected! You can
expect to monitor local repeater and simplex transmissions easily, using
a simple groundplane style antenna. The receiver also responds very
well to the addition of a low-noise pre-amplifier such as the Ramsey SA-
7/PR-2. A versatile receiver accessory is the Ramsey AA-7 HF-VHF
Active Antenna, which doubles as a preamplifier with other antennas in
addition to the excellent performance of its own whip.
ADDING AN LED POWER "ON" INDICATOR
For many people, a pilot lamp to indicate "power on" is more than a nice
touch. They expect it and depend on it, reminding us that "real radios
glow in the dark!" Adding a simple LED power-on indicator to your
Ramsey kit receiver is easy. All you need is the LED itself and a small
1K to 2.2K resistor.
Study the PC traces between the positive battery supply wire and the
on-off switch. The unused connectors on top of your switchare an ideal
point to get the + DC voltage needed for the anode (longer lead) of the
LED. Plan where and how you wish to install the LED in your enclosure.
Locating the LED immediately above the on-off switch is logical and
ideal. The simplest way to make a good installation is to drill a neat hole
just slightly smaller than the diameter of the LED. Then, enlarge the hole
a little bit at a time, just enough to let the LED be pressed in and held
firmly. The resistor may be connected to either the anode or cathode of
the LED, but the anode MUST go to + DC, with the cathode connected
to the nearest common ground point. If you are wondering why we did
not include these pennies worth of parts with your kit, you can believe
any of the following reasons:
(1) We wanted to stretch your battery budget: with the LED drawing
FR-10 ?7
Fixed Resistors
?1 2 ohm [red-black-gold] (R22)
?3 270 ohm [red-violet-brown] (R6,9,20)
?1 470 ohm [yellow-violet-brown] (R5)
?2 1K ohm [brown-black-red] (R11,12)
?3 10K ohm [brown-black-orange] (R7,17,19)
?1 18K ohm [brown-gray-orange] (R18)
?1 33K ohm [orange-orange-orange] (R14)
?4 47K ohm [yellow-violet-orange] (R4,8,13,21)
?1 100K ohm [brown-black-yellow] (R16)
?1 470K ohm [yellow-violet-yellow] (R15)
?1 1 megohm [brown-black-green] (R10)
Capacitors
?1 10 pF (C5)
?2 22 pF (C2,19)
?1 47 pF (C12)
?256 pF (C3,4)
?5 100 pF [marked 100, 101, or 101K] (C1,6,9,10,22)
?1 220 pF [marked 220 or 221] (C18)
?6 .001 uF [marked .001 or 102 or 1 nF] (C7,8,20,23,24,25)
?9 .01 uF [marked .01 or 103 or 10 nF]
(C11,13,16,17,21,26,28,29,31)
?1 .1 uF [marked .1 or 104] (C34)
?1 1.0 uF electrolytic (C27)
?3 4.7 or 10 uF electrolytic (C15,30,36)
?4 100 to 220 uF electrolytic (C14,32,33,35)
Controls and Hardware
?1 Printed circuit board
?3 10K ohm potentiometer (R1,R2,R3)
?1 DPDT push switch (S1)
?1 PC mount RCA jack (J1)
?1 PC mount subminiature speaker jack (J2)
?1 9-volt battery bracket
?1 9-volt battery snap-on clip
REQUIRED, NOT SUPPLIED
?1 9-volt alkaline battery
?1 VHF antenna with cable terminated in RCA-style plug or adapter
?1 Speaker or headphones
FR-10 ?8
U2, 3359
FR-10 BLOCK DIAGRAM
FR-10 ?21
ALIGNMENT PROCEDURE
?1. Make sure the power switch is off.
?2. Connect the antenna, earphone or speaker and battery.
?3. Turn the slug of L3 until it is even with top of coil form.
?4. Now, turn the slug of L3 clockwise 7 turns back into the form.
?5. Turn the slug of L4 until it is flush with the top of the coil and
then turn it 2 turns back into the coil.
?6. Turn all three controls to the left, fully counterclockwise.
?7. Turn the power ON.
?8. Turn R2 (Volume control) until you hear some noise.
?9. Adjust L4 for maximum noise in the speaker. Further alignment
now consists of adjusting the oscillator coil L3 to permit the
tuning control (R3) to cover the 5 MHz segment between 25 and
35 MHz of primary interest to you.
If you are a beginner with no license or other equipment, any Ham
operator with a 10-meter transceiver should be willing to give you the
test signal and extra help that you need. The FR-10 is very sensitive, so
operate the transceiver on low power on a simplex frequency from a
distance of at least across the room. An 8" piece of wire will be a
sufficient receiving antenna for such tests. If you don't know any Hams,
visit a friendly two-way radio service center to get close to the test signal
you need! If ham radio or 10 meters is new to you and you do not have
a general coverage receiver for comparison, here's a listing of the
various band portions:
28.00 -28.10 General class and higher CW
28.10 -28.30 Novice & Tech CW and digital
28.30 -28.50 Novice & Tech SSB
28.50 -29.70 General class and higher SSB, FM, etc.
29.30 -29.50 Amateur satellites
29.52 -29.58 Repeater inputs
29.60 Simplex calling frequency
29.62 -29.68 Repeater outputs -This is where you'll hear the
most action!
FR-10 ?20
TESTING, ALIGNMENT AND ADJUSTMENT
To prepare the FR-10 FM VHF Receiver for reliable monitoring
operation, you will need these basic tools:
?1. A useful 10 meter signal source.
?2. Hexagonal, non-metallic coil slug alignment tool for L3.
?3. Small screwdriver to adjust L4.
1. Signal source:This signal can be from your test bench equipment or
from a "live" source such as a local repeater. The "live" signals are best
for fine-tuning, but they also have that VHF communications character of
being fast and to the point. Good test bench signal sources include your
own 10-meter transceiver, if you are licensed to use it, a signal
generator or grid-dip oscillator.
2. L3 Alignment Tool: If you do not already have a set of plastic or
nylon coil alignment tools and do expect to try further Ham radio or
electronic hobby projects, such tools are worth having and can be found
inexpensively at any electronics store including Radio Shack. While a
metal Hex key wrench can fit the coil slug, the metal itself would
damage the coil inductance drastically and therefore should not be used.
With patience and sandpaper, a useable tool might be formed from a
wood or plastic rod.
FR-10 ?9
FR-10 PARTS LAYOUT DIAGRAM
FR-10 ?10
NOTE CONCERNING THE AUDIO OUTPUT JACK
Your receiver kit is supplied with a standard subminiature 2.5 mm
(3/32”) audio jack, which mates with commonly available earphone
plugs and adapters available at Radio Shack, such as 274-290 (plug) or
274-327 (adapter for 1/8” mono plug). If you prefer to use another size
and style jack, we suggest that you still install the original jack and then
wire your own jack in parallel with it rather than rough up the PC board
to accommodate your jack.
SEMICONDUCTOR REPLACEMENT DATA
U1 NE602 (Signetics) Contact Ramsey Factory
U2 MC3359 (Motorola) ECG860 or SK7731
U3 LM386 (National) available at Radio Shack, other suppliers
Q1 2SC2498 or 2570 ECG10 or SK9139
Q2,3 2N3904 available at Radio Shack, other suppliers
D1 BB405 contact Ramsey Factory
D2 1N4148 available at Radio Shack, other suppliers
FR-10 ?19
?75. Install R15, 470K ohms [yellow-violet-yellow].
5. FINAL CONNECTIONS: THE LM386 AUDIO IC STAGE
You now have a working FM receiver ready for adjustment. The output of
the MC3359 FM IC simply needs to be boosted to listening level. A few
more connections, and your receiver will be ready for adjustment and
testing! Now would be a good time to review some of your previous work
and also to make sure you have on hand what you'll need for testing:
antenna, fresh battery, earphone or speaker with correct plug or adapter.
?76. Review the instructions for installing U1 and U2. Insert U3, the
LM386 IC with the band or dot oriented correctly. Solder the 8
connections.
?77. Install C32, a 100 to 220 uf electrolytic, observe correct polarity.
?78. Install C31, .01 uf [marked .01 or 103 or 10nf].
?79. Install C36, 4.7 or 10 uf electrolytic, observe polarity.
?80. Install C33, 100 to 220 uf electrolytic, observe polarity.
?81. Install the battery snap terminal in the two holes below S1,
making sure that the positive (red) lead is inserted into the (+)
hole on the PC board.
?82. The battery bracket may be attached in a variety of ways. A wire
jumper can be passed through the two holes on the PC board,
then both ends soldered on the underside of the board. You may
prefer to use very small screws or even a double-sided mounting
adhesive strip or glue. In using such methods, make sure that the
battery will not block the PC board's mounting hole in its vicinity.
Wiring of the PC board is now complete. If you have the the patience, we
suggest a short break. Then take a magnifying lens and
a bright light and
examine all your solder joints, touching up any connection which appears
less than perfect. Make sure all excess leads have been trimmed, and
that one is not bent back flat against the board, possibly causing a short.
Brush the solder side of the board with a stiff brush to make sure that no
loose wire trimmings or solder drippings (tsk tsk) are lodged between
connections.
FR-10 ?18
?58. Install C24, .001 uf [marked .001 or 102].
?59. Install C25, .001 uf [marked .001 or 102].
?60. Install C26, .01 uf [marked .01 or 103 or 10nf].
?61. Install L4, the 450 KHz quadrature coil, soldering the two pins
and the two mounting tabs.
?62. Install U2, the MC3359 IC. As in the case of the NE602 IC, you
could choose to install an 18-pin IC socket rather than soldering the
IC directly. Re-read the previous discussion of IC sockets offered for
the installation of U1. Larger IC's such as the MC3359 require
considerably more care in socket insertion.Notice that the end of the
IC marked by a band or dot and must be oriented correctly as shown
on the PC parts layout diagram. Solder each of the 18 connections
carefully. Make sure you have good lighting as well as good
technique to make sure that no solder "bridges" flow between the
connections.
?63. Install C22, 100 pf [marked 100 or 101].
?64. Install C16, .01 uf [marked .01 or 103 or 10nf].
?65. Install C17, .01 uf [marked .01 or 103 or 10nf].
?66. Install C21, .01 uf [marked .01 or 103 or 10nf].
?67. Install C18, 220 pf [marked 220 or 221].
?68. Install C19, 22 pf.
?69. Install Y1, the 10.24 MHz. crystal. No special procedure is
required. Simply press the crystal firmly into its holes as far as it
will go, and make good solder connections.
?70. Install FL2, the 450 KHz filter. Its three leads are delicate, and
fit in only one way.
?71. Install C23, .001 uf [marked .001 or 102].
?72. Install C27, 1 uf electrolytic, observe correct polarity.
?73. Install D2, the 1N914/1N4148 signal diode, observe correct
orientation of the banded cathode end.
?74. Install R16, 100K ohms [brown-black-yellow].
FR-10 ?11
RAMSEY “Learn-As-You-Build” KIT ASSEMBLY:
We have a twofold "strategy" for the order of the following kit assembly
steps. First, we install parts in physical relationship to each other, so
there's minimal chance of inserting wires into wrong holes. Second,
whenever possible, we install in an order that fits our "Learn-As-You
Build" Kit building philosophy.
FOR EACH PART, OUR WORD "INSTALL" ALWAYS MEANS THESE
STEPS:
1. Pick the CORRECT part value to start with.
2. Insert it into the CORRECT PC board location.
3. ORIENT it correctly, which means: PLEASE follow the PC board
drawing and the written directions for ALL parts where there's a
right way AND a wrong way to solder it in. (Diode bands,
electrolytic capacitor polarity, transistor shapes, dotted or
notched ends of IC's, and so forth.)
4. Solder ALL connections unless directed otherwise. Use enough heat
and solder flow for clean, shiny, completed connections.Don't
be afraid of ANY pen-style soldering iron having enough heat to
damage a component.
5. Trim or "nip" excess wire lengths after soldering.
NOTE: Save some of the longer wire scraps nipped from resistors and
capacitors. These will be used to form wire jumpers (JMP1, etc.) to be
soldered in just like parts during these construction steps.
Now, let's start building!
?1. Press S1 firmly into its six holes and solder all six pins. The
switch fits the board only one way. Ignore the other set of six
solder connectors on the switch.
?2. Install J1, the RCA-style antenna jack. Solder all 4 points.
?3. Install J2, the subminiature phone jack. Solder all three points.
Be gentle and patient in inserting, so as not to damage the
solder tabs.
?4. Install controls R1, R2 and R3. Insert the three PC mounted
controls into their positions. Check that the controls are pressed
in firmly and straight against the top of the board. Solder the three
FR-10 ?12
center pins and then the two larger mechanical mounting tabs. Use
enough solder for a solid connection.
Also, if you plan to use an enclosure other than the custom Ramsey
enclosure and knob kit, you may wish to locate the controls differently
than provided by the PC board. In this case, the control lugs are wired to
the PC board using your own insulated hookup wire, kept as short as
possible for neat installation.
FURTHER COMPONENT INSTALLATION
All "directions" on the PC board (i.e.: right, left, above, below and so
forth) assume orientation of your board as shown in the parts layout
diagram. Therefore the rear of the board (connectors) is the lower end,
and the front (controls) is the upper end.
1. ANTENNA INPUT AND TUNED RF PREAMPLIFIER
?5. Install C1, 100 pf disc capacitor [marked 100 or 101].
?6. Install C2, 22 pf.
?7. Install C3, 56 pf.
?8. Install L1, .33 uH inductor. L1 resembles a resistor body with
two orange stripes painted on it.
?9. Install C4, 56 pf.
?10. Install L2, the other .33 uH coil just like L1 above.
?11. Install C5, 10 pf.
?12. Clearly identify Q1, the 2SC2498 or 2570 transistor. Do not
confuse it with the other transistors supplied. Position Q1 as shown
on the PC board layout, with the flat side facing to the right, toward
the middle of the board. Press the transistor snugly into the PC
board so that only a minimum amount of wire lead is exposed above
the board. When soldering, don't be afraid to use enough heat to
make good clean connections.
?13. Install R4, 47K, just to the left of Q1. [yellow-violet-orange].
?14. Install C6, 100 pf [marked 100 or 101].
FR-10 ?17
3. TRANSISTOR COUPLING & AFC CIRCUITS, VOLUME &
SQUELCH CONTROLS
?37. Install Q2, a 2N3904 transistor. Observe correct positioning of
the flat side.
?38. Install R13, 47K ohms [yellow-violet-orange].
?39. Install C20, .001 uf [marked .001 or 102].
?40. Install R12, 1K ohms [brown-black-red].
?41. Install Q3, 2N3904 transistor.
?42. Install R10, 1 megohm [brown-black-green].
?43. Install R11, 1K ohms [brown-black-red].
?44. Install R22, 2 ohms [red-black-gold].
?45. Install C29, .01 uf [marked .01 or 103 or 10nf].
?46. Install C30, 4.7 or 10 uf electrolytic, observe correct polarity.
?47. Install R18, 18K ohms. [brown-gray-orange]
?48. Install C28, .01 uf [marked .01 or 103 or 10nf].
?49. Install R19, 10K ohms [brown-black-orange].
?50. Install jumper wire, JMP2.
?51. Install C34, .1 uf [marked .1 or 104].
?52. Install R21, 47K ohms [yellow-violet-orange].
?53. Install C35, 100 to 220 uf electrolytic, observe polarity.
?54. Install R20, 270 ohms [red-violet-brown].
?55. Install Q4, 2N3904 transistor.
4. MC3359 FM IC and ASSOCIATED COMPONENTS
?56. Install R17, 10K ohms [brown-black-orange].
?57. Install R14, 33K ohms [orange-orange-orange].
FR-10 ?16
?27. Install C12, 47 pf.
?28. Install varactor diode D1.It looks like a transistor with just two
leads. The flat side faces L3 so be sure to orient it correctly.
?29. Install R8, 47K ohms [yellow-violet-orange].
?30. Install R9, 270 ohms [red-violet-brown].
?31. Install C13, .01 uf [marked .01 or 103 or 10nf].
?32. Installation of C14. This is the first of the electrolytic or
"polarized" capacitors that you will install. This means these
capacitors have a positive (+) and negative (-) side and therefore
a right way andwrong way of installation. Ordinarily, only the
negative side is marked on the capacitor body, a dark band with
the (-) sign clearly shown. The value of C14 is not critical and
may be any value from 100 to 220 uf.
?33. Install C14, 100 to 220 uf, observing correct polarity.
?34. Install C15, 4.7 or 10 uf, observing correct polarity.
?35. Install jumper JMP1.
?36. Install jumper JMP3.
PROGRESS SUMMARY
So far, you have wired the tuned input from the antenna, the RF
preamplifier, and the NE602 mixer-oscillator, including the varactor
tuning circuit. The work you have done so far has actually formed a
simple receiver capable of tuning in VHF signals of all kinds and
converting them to a low-level 10.7 MHz output to be amplified by Q2.
This is a good time to review the steps completed so far before
proceeding. Due to the many functions of the MC3359 FM receiver IC,
further assembly steps will be in the order of easiest parts installation.
FR-10 ?13
?15. Install R5, 470 ohms [yellow-violet-brown].
2. NE602 OSCILLATOR-MIXER and VARACTOR TUNING
?16. Install R6, 270 ohms. [red-violet-brown]
?17. Install C7, a .001 uF bypass capacitor [marked .001,102, or
1 nF].
In installing the NE602 IC, you may wish to use an 8-pin DIP socket
rather than soldering the IC directly to the board. Reasons for doing this
might include the peace of mind of beginners afraid of damaging the IC,
or experienced builders testing the merits of the NE602's cousin, the
SE602. However, please be aware that we have seen more service
problems with improper socket insertion than from soldering heat
damage to IC's. Even if this is your first IC, don't be afraid to use enough
heat to make 8 clean connections, but DO be sure to correctly orient the
end marked by a band, dot, or notch. Before soldering, make sure that
the IC or socket is perfectly flat against the top of the PC board.
?18. Install U1, the NE602 in accord with the preceding directions.
?19. Install the FL1 ceramic filter. This component is a brown, molded
"blob" with 3 leads and may be installed either way.
?20. Install jumper wire JMP4. Use a scrap component lead wire bent
into a small loop that connects the two PC board holes. Jumpers
act as "bridges" over PC board traces underneath.
?21. Install C8, .001 uf [marked .001 or 102].
?22. Install C10, 100 pf [marked 100 or 101].
?23. Install R7, 10K [brown-black-orange].
?24. Install C9, 100 pf [marked 100 or 101].
?25. Install C11, .01 uf [marked .01 or 103 or 10 nf].
?26. Install L3. It is important that the body of this coil be snug
against the PC board for mechanical stability, which directly
affects the frequency stability of the receiver. Make good, solid
solder connections!
FR-10 ?14 FR-10 ?15
Other manuals for FR-10
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