Fisher CUSTOM ELECTRA 48 IP Service Manual

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Fisher CUSTOM ELECTRA 48 IP Service Manual

Extracted text from Fisher CUSTOM ELECTRA 48 IP Service Manual (Ocr-read)


Page 1

I Service Manual

' THE
, FISHER

Custom Electra
. MODELS 48 WA AND 49 IPA

FISHER RADIO CORPORATION - LONG ISLAND CITY 1 - NEW YORK

, J

Page 2

CAUTION: This is a FISHER precision high-fidelity in-
strument. It should be serviced only by qualified personnel -
trained in the repair of transistor equipment and printed circuitry.

EQUIPMENT AND TOOLS NEEDED
The following are needed to completely test and align this high»fide|ity instrument.

Test Instruments

Vacuum-Tube Voltohmmeter DC VTVM

Audio (AC) Vacuum-Tube Voltmeter (AC VTVM)
Oscilloscope (Flat to 100 kc minimum)

Audio (Sine-wave) Generator

Intermodulation Analyzer

Sweep (FM) 'Generator (88 to 108 mc)

Marker Generator

Multiplex Generator (preferably with RF output-

FISHER Model 300 or equal).

Miscellaneous

Adjustable-Line-Voltage Transformer or
[Inc-voltage regulator

Load Resistors (2)-8-ohm, 50-watt (or higher)

Stereo source (Turntable with stereo cartridge
or Tape Deck)

Speakers (2) Full-range, for listening tests

Soldering iron (with small-diameter tip)
fully insulated from power line,

PRECAUTIONS

Many of the items below are included just as a re-
minder-they are normal procedures for experienced
technicians. Shortcuts can be taken but often they
cause additional damage-to transistors, circuit com-
ponents or the printed-circuit board.

Soldering-A well-tinned, hot, clean soldering iron tip
will make it easier to solder without damage to the
printed-circuit board or the many many circuit com-
ponents mounted on it. It is not the wattage of the
iron that counts-it is the heat available at the tip.
Low-wattage soldering irons will often take too long to
heat a connection-pigtail leads will get too hot and
damage the part. Too much heat, applied too long, will
damage the printed-circuit board. Some 50»watt irons
reach temperatures of 1,000 Fothers will hardly
melt solder. Small-diameter tips should be used for
single solder connections-larger pyramid and chisel
tips are needed for larger areas.

0 When removing defective resistors, capacitors, etc.,
the leads should be cut as close to the body of the
circmt component as possible. (lf the part is not being
returned for in-warranty factory replacement it may be
cut in half-with diagonal-cutting pliers-to make
removal easier.)

a Special ale-soldering tiplets are made for unsolder-
ing multiple- -terminal units like IF transformers and
electrolytic capacitors By unsoldering all terminals at
the same time the part can be removed with little
chance of breaking the printed- circuit board

0 Always disconnect the chassis from the power line
when soldering. Turning the power switch OFF Is not
enough. Power- line leakagepaths, through the heating
element, can destroy tranSIstors.

Transistors-Never attempt to do any work on the
tranSIstor amplifiers without first disconnecting the
AC-power lInecord-wait until the power supply filter-
capaCItors have discharged.

0 Guard against shorts-it takes only an instant for
a base»to-co|lector short to destroy that transistor and
possibly others direct- -coupled to it. [In the time it
takes for a dropped machine screw, washer or even
the screwdriver, to glance off a pair of socket terminals
(or between a terminal and the chassis) a transistor
can be ruined]

a DO NOT bias the base of any transistor to, or near,
the same voltage applied to its collector

- DO NOT use an ohmmeter for testing transistors.
The voltage applied through the test probes may be
higher than the base- emitter breakdown voltage of the
transistor.

Output Stage and Driver-Replacements for output
and driver transistors, if necessary, must be made from
the same beta group as the original type. The beta
group is indicated by a colored dot on the mounting
flange of the transistor. Be sure to include this in-
formation, when ordering replacement transistors.

© COPYRIGHT 1965 FISHER RADIO CORPORATION All Rights Reserved

0 If one output transistor burns out (open or shorts),
always remove all output transistors in that channel
and check the bias adjustment, the control and other
parts in the network with an ohmmeter before insert-
ing a new transistor. All output transistors in one
channel will be destroyed if the base- biasing circuit
is open on the emitter end

0 When mounting a replacement power transistor be
sure the bottom of the flange, the mica insulator and
the surface of the heat sink are free of foreign matter.
Dust and grit can prevent perfect contact. This re-
duces heat transfer to the heat sink Metallic particles
can puncture the insulator and cause shorts-ruining
the transistor.

o Silicone grease must be used between the transist-
or and the mica insulator and between the mica and
the heat sink for best heat conduction. Heat is the
greatest enemy of electronic equipment. lt can shorten
the life of transistors, capacitors and resistors. (Use
Dow-Corning DC-3 or 020194-or equivalent compounds
made for power transistor heat conduction.)

- Use care when making connections to speakers and
output terminals. Any frayed wire ends can cause
shorts that may burn out the output transistors-they
are direct-coupled to the speakers, There is no output
transformer- nothing to limit current through the tran-
sistors except the fuses. To reduce the possibility of
shorts at the speakers, lugs should be used on the
exposed ends-at least the ends of the stranded wires
should be tinned to prevent frayed wire ends. The
current in the speakers and output circuitry is quite
high. Any poor contact or small- -size Wire, can cause
power losses in the speaker system. Use 14 or 16 AWG
for long runs of speaker connecting wiring.

DC- Voltage Measurements-These basic tests of the
transistor circuitry are made without the signal gener»
ator. Without any signal input measure the circut volt-
agesaas indicated on the schematic. The voltage
difference between the base and the emitter should
be in the millivolt range-a sensitive DC meter is
needed for these readings. A low-voltage range of 1 volt,
full Scale-or lower-is needed.

Audio-Voltage (gain) Measurements-The schematic
and printed- circuit board layout diagrams are used.
Input signals are injected at the proper points-found
most quickly by using layout of the printed- c-ircuit
board instead of the schematic An AUDIO (AC) VTVM
connected to the test points should indicate voltages
close to those values 5 own in the boxes on the sche-
matic. Many of the signal levels in the input stages
are only a few millivolts-they can not be read on the
AC ranges supplied on most Vacuum-Tube AC/DC Volt-
ohmmeters (VTVMs). Even with a l-volt range a signal
level of 100 millivolts (.1volt) will be the first 1/10
of the meter scale. A reading of 1 millivolt (.001 volt)
will hardly even move the meter needle.