Crown Micro-Tech MT-600 User manual
Micro-Tech 600 Amplifier Service Manual
1
MICRO-TECH®-600
POWER AMPLIFIER
SERVICE MANUAL
K-SVCMT6
8-95
Micro-Tech®,ODEP® and Crown®are registered trademarks of Crown International, Inc.
MailingAddress:
P.O. Box 1000
Elkhart,INU.S.A. 46515-1000
ShippingAddress:
57620C.R.105
Elkhart, IN U.S.A. 46517
©1995 by CROWN INTERNATIONAL, INC.
Micro-Tech 600 Amplifier Service Manual
2
À PRÉVENIR LE CHOC
ÉLECTRIQUE N’ENLEVEZ
PAS LES COUVERTURES.
RIEN DES PARTIES
UTILES À L’INTÉRIEUR.
DÉBRANCHER LA BORNE
AVANT D’OUVRIR LA
MODULE EN ARRIÈRE.
TO PREVENT ELECTRIC SHOCK DO
NOT REMOVE TOP OR BOTTOM
COVERS. NO USER SERVICEABLE
PARTS INSIDE. REFER SERVICING
TO QUALIFIED SERVICE
PERSONNEL. DISCONNECT
POWER CORD BEFORE REMOVING
REAR INPUT MODULE TO ACCESS
GAIN SWITCH.
CAUTION AVIS
WARNING
TO REDUCE THE RISK OF ELECTRIC
SHOCK, DO NOT EXPOSE THIS
EQUIPMENT TO RAIN OR MOISTURE!
The information furnished in this manual does not include all of the details of design, production, or variations
of the equipment. Nor does it cover every possible situation which may arise during installation, operation or
maintenance. If you need special assistance beyond the scope of this manual, please contact the Crown
Technical Support Group.
Mail: P.O. Box 1000 Elkhart IN 46515-1000
Shipping: 57620 C.R. 105 Elkhart IN 46517
Phone: (800) 342-6939/(219) 294-8200
FAX: (219) 294-8301
Micro-Tech 600 Amplifier Service Manual
3
Introduction .............................................................4
Scope......................................................................4
Warranty..................................................................4
Parts Information .....................................................5
Specifications..........................................................6
Voltage Conversion .................................................7
Circuit Theory ..........................................................8
Electrical Checkout Procedures............................13
Parts List (Non-Module) ........................................ 17
Module and Schematic Information ......................20
Fuse and Display Modules....................................21
Q42549-8 Output Module .....................................22
Q42647-0 Output Module .....................................23
Q42717-1 Output Module .....................................24
Q42817-6 Output Module .....................................25
Q42968-0 Output Module .....................................26
Q43202-3 Output Module .....................................27
Q42552A0 Main Module .......................................28
Q42713-0 Main Module.........................................30
Q42776-7 Main Module.........................................32
Q42983-9 Main Module.........................................35
Q43038-1 Main Module.........................................38
Q43033-2 Main Module.........................................41
Table of Contents
Micro-Tech 600 Amplifier Service Manual
4
Crown
Technical Support Group
Factory Service
Parts Department
Mailing Address:
PO Box 1000
Elkhart, IN USA 46515-1000
Shipping Address:
57620 C.R. 105
Elkhart, IN USA 46517
Phone: (219) 294-8200
Toll Free: (800) 342-6939
FAX: (219) 294-8301
This manual contains service information on Crown
poweramplifiers. Itisdesignedtobeusedinconjunc-
tion with the applicable Owner's Manual. However,
some important information is duplicated in this Ser-
viceManual incase theOwner's Manualis notreadily
available.
NOTE: THE INFORMATION IN THIS MANUAL IS INTENDED
FOR USE BY AN EXPERIENCED TECHNICIAN ONLY!
SCOPE
ThisServiceManualinintendedtoapplytoallversions
oftheMT-600amplifierincludingtheAmcronMT-601.
The Parts Listings include parts specific for the US
version and the European version (MT-600E13). For
partsspecificonlytootherversionscontacttheCrown
Technical Support Group for help in finding part
numbers.
ThisService Manualincludes several sections.These
sections include Parts Information, Specifications,
Voltage Conversion, Circuit Theory, Electrical Test
Procedures, Non-Module Parts Lists, and Module
Parts Lists. Schematics are attached. Note that com-
ponent parts with circuit board comprise a complete
module. Module part numbers are always associated
withaspecificcircuitboard,althoughanunpopulated
circuit board may be built up with different parts to
create different modules. Note that Crown does not
sell blank (unpopulated) circuit boards.
Each of the compact audio power amplifiers are
designed for professional or commercial use. Provid-
inghigh poweramplification from20Hz to20KHz with
minimumdistortion, theyfeaturebalanced inputswith
bridged and parallel monophonic capability. Specific
features vary depending on model family.
WARRANTY
Each Owner's Manual contains basic policies as re-
lated to the customer. In addition it should be stated
that this service documentation is meant to be used
only by properly trained service personnel. Because
most Crown products carry a 3 Year Full Warranty
(includingroundtripshippingwithintheUnitedStates),
all warranty service should be referred to the Crown
Factory or Authorized Warranty Service Center. See
theapplicableOwner’sManualforwarrantydetails.To
find the location of the nearest Authorized Service
Centeror obtaininstructions forreceivingCrown Fac-
toryServicepleasecontacttheCrownTechnicalSup-
port Group (within North America) or your Crown/
Amcron Importer (outside North America).
Introduction
Micro-Tech 600 Amplifier Service Manual
5
Parts Information
shipmentonaC.O.D.orpre-payment(checkorcredit
card) basis.
TERMS
Normal terms are pre-paid. Net-30 Days applies to
onlythosefirmshavingpre-establishedaccountswith
Crown. If pre-paying, the order must be packed and
weighed before a total bill can be established, after
which an amount due will be issued and shipment
made upon receipt of pre-payment. New parts re-
turned for credit are subject to a 10% re-stocking fee,
and authorization from the Crown Parts Department
must be obtained before returning parts for credit.
Crownisnotageneralpartswarehouse.Partssoldby
the Crown Parts Department are solely for servicing
Crown/Amcron products. Part prices and availabil-
ity are subject to change without notice.
GENERAL INFORMATION
Latersectionsincludeboth mechanicaland electrical
parts lists for this product. The parts listed are current
as of the date printed. Crown reserves the right to
modify and improve its products for the benefit of its
customers.
PART NUMBERING SYSTEMS
As of the printing of this manual, Crown is using two
numbering systems. The elder system always uses
eight characters. The first character is a letter. Com-
monletters usedareC,D,H,M,P,andQ.Thesecond
through sixth characters are numbers. The numbers
build sequentially (for each prefix letter) as new parts
are added to our parts inventory system. (In some
cases there will be a space then a four character
numberafterthe prefixletter; thespaceis considered
a character.) The seventh character is usually a hy-
phen,thoughitmaybealettertoindicatearevisionor
specialnote.Thelastcharacteriscalledacheck-digit,
and is useful to Crown for internal tracking.
Crown is in the process of converting to a new part
number system. Length may vary from eight to twelve
characters. There is still a letter prefix, then five
numbers. These five numbers identify a type of part.
The seventh character is a hyphen. Remaining char-
acters identify the details of the type of part identified
by the first part of the number.
STANDARD AND SPECIAL PARTS
Many smaller electrical and electronic parts used by
Crown are stocked by and available from electronic
supply houses. However, some electronic parts that
appear to be standard are actually special. A part
ordered from Crown will assure an acceptable re-
placement. Structural items such as modules and
panels are available from Crown only.
ORDERING PARTS
When ordering parts, be sure to give the product
model, and include a description and part number
(CPN/DPN) from the parts listing. Price quotes are
available on request.
SHIPMENT
Shipment will be normally made by UPS or best other
method unless you specify otherwise. Shipments are
made to and from Elkhart, Indiana USA, only. Estab-
lished accounts with Crown will receive shipment
freightprepaidandwillbebilled.Allotherswillreceive
Crown
Parts Department
Mailing Address:
PO Box 1000
Elkhart, IN USA 46515-1000
Shipping Address:
57620 C.R. 105
Elkhart, IN USA 46517
Phone: (219) 294-8210
or: (219) 294-8211
Toll Free: (800) 342-6939
FAX: (219) 294-8301
Micro-Tech 600 Amplifier Service Manual
6
Specifications
Unless noted otherwise, all specifications are based
on driving an 8 ohm load per channel, both channels
driven, the sensitivity switch in the 26dB position, the
AC supply is 120VAC at 60Hz. Crown specifications
areguaranteed throughthe warrantyperiod (normally
3years). Becauseour testing methodsaremorestrin-
gent than our published specifications, every Crown
amplifier will exceed its published specifications.
POWER
Power
8 Ohm Stereo—235W/Ch
4 Ohm Stereo—325W/Ch
2 Ohm Stereo—400W/Ch
8 Ohm Bridge Mono—655W
4 Ohm Bridge Mono—750W
2 Ohm Parallel Mono—665W
1 Ohm Parallel Mono—700W
Load Impedances: Rated for 16, 8, 4, 2, and 1 (parallel
monoonly)Ohmoperation;safewithalltypesofloads,
even totally reactive loads.
AC Mains: 120VAC at 60 Hz with standard three-wire
groundedconnectorforNorthAmericanunits;100VAC,
120VAC, 220VAC, and 240VAC at 50 or 60 Hz when
equipped with universal transformers, applicable fan
assembly, and other applicable hardware with coun-
try specific power cord.
PERFORMANCE
Frequency Response: ±0.1dB from 20 Hz to 20 kHz at 1
Watt.
Phase Response: ±10° from 10 Hz to 20 kHz at 1 Watt.
Signal to Noise Ratio: A-weighted, better than 105 dB
below full rated output. Better than 100 dB below full
rated output from 20 Hz to 20 kHz.
Total Harmonic Distortion (THD): <0.05% from 20 Hz to
1 kHz, increasing linearly to 0.1% at 20 kHz at 500W.
I.M.Distortion: <0.05%from lessthan 164 milliwattsto
520 W at 26 dB gain.
Slew Rate: >13V per microsecond. (Slew rates are
limited to useful levels for ultrasonic/RF protection.)
Damping Factor: >1000 from 10 Hz to 400 Hz.
DC Offset: <10 millivolts.
Input Impedance: Nominally 20K ohms balanced; 10K
ohms unbalanced.
Output Impedance: <10 milliohms in series with <2
microhenries.
Protection Systems: Output Device Emulation Protec-
tion (ODEP) limits drive in the event of dangerous
dynamicthermalconditionswithoutinterruptingpower.
Currentlimitingforshortedloadprotection.DC/LFand
common mode output current Fault circuitry to mute
audio.Delayof4secondsfromturnonmutesamplifier
to prevent dangerous turn-on transients. A high volt-
age circuit breaker in each main transformer primary
and a low voltage power supply fuse in fan primary.
Slew rate limiting to prevent RF burn out.
MECHANICAL
Input Connectors: Balanced 1/4 inch phone jacks. Op-
tional XLR inputs with MT-XLR accessory.
Output Connectors: Color-coded 5-way binding posts
on 3/4 inch centers; spaced 3/4 inch apart.
Front Panel Controls: A front panel rocker switch used
to power the amplifier on and off.
Back Panel Controls: A three-position switch which
selects Stereo,Bridge-Mono,orParallel-Monomode.
A rotary potentiometer for each channel used to
controloutputlevel.Agroundliftswitchusedtoisolate
the phone jack input grounds from the chassis (AC)
ground. And a push button circuit breaker for each
channel used to protect the power supplies.
InternalControls:Athree-positionswitchselects0.775V,
1.4V, or 26 dB voltage gain input sensitivity.
Indicators:AmberEnableindicatorshowson/offstatus
oflow-voltagepower supply.An AmberODEPindica-
torfor eachchannel showsthereserve energystatus.
If no reserve energy is available the indicator will dim
in proportion to ODEP limiting.
Construction: Black splatter-coat steel chassis with
specially designed flow-through ventilation system.
Mounting: Standard EIA 310 front-panel rack mount
with supports for supplemental rear corner mounting.
Dimensions:19incheswide,3.5incheshigh,16inches
deep behind front mounting surface.
Weight: 36 lbs, 4 oz. Shipping; 41 lbs, 2 oz.
Micro-Tech 600 Amplifier Service Manual
7
Voltage Conversion
The 120 Volt 60 Hz version, sold in the United States,
is not voltage selectable. It does not have voltage
selection boards. This version is to be used only with
120 Volts and only with 60Hz.
All other versions of the Micro Tech 600 use voltage
selection boards. The following chart indicates which
jumpers are used for different voltages. Note that the
fuses and transmotor may need to be changed to
accommodate different voltages. Versions with the
voltage selection boards may be used at 50 or 60 Hz.
VOLTAGE SELECTION BOARD
200V
120V
100V 240V
220V/230V
H43068-8 H43407-8 H43061-3
Jumpers
Fuses
F100/F200
Transmotor
TF1
Z101
Z104
Z106
Z201
Z204
Z206
Z100
Z104
Z105
Z200
Z204
Z205
Z101
Z103
Z201
Z203
Z101
Z102
Z201
Z202
Z100
Z102
Z200
Z202
A10285-21, 5A
A10285-23, 7A
Micro-Tech 600 Amplifier Service Manual
8
Theory
OVERVIEW
It should be noted that over time Crown makes im-
provementsandchanges to their products for various
reasons. This manual is up to date as of the time of
writing. For additional information regarding these
amplifiers, refer to the applicable Technical Notes
provided by Crown for this product.
Thissectionofthemanualexplainsthegeneralopera-
tion of a typical Crown power amplifier. Topics cov-
eredincludeFrontEnd,GroundedBridge,andODEP.
Due to variations in design from vintage to vintage
(andsimilaritieswithotherCrownproducts)thetheory
of operation remains simplified.
FEATURES
MicroTechamplifiersutilize numerousCrown innova-
tionsincluding groundedbridge andODEPtechnolo-
gies. Cooling techniques make use of the what is
essentially air conditioner technology. Air flows bot-
tomto top,and frontto side.Air flowsa shortdistance
across a wide heatsink. This type of air flow provides
significantly better cooling than the “wind tunnel”
technology used by many other manufacturers. Out-
put transistors are of the metal can type rather than
plastic case. This allows for a significantly higher
thermal margin for the given voltage and current
ratings. All devices used are tested and graded to
ensure maximum reliability. Another electronic tech-
nique used is negative feedback. Almost all power
amplifiers utilize negative feedback to control gain
and provide stability, but Crown uses multiple nested
feedback loops for maximum stability and greatly
improveddamping.MostCrownamplifiershavedamp-
inginexcessof1000inthebassfrequencyrange.This
feedback, along with our compensation and ultra-low
distortion output topology, make Crown amplifiers
superior.
FeaturesspecifictotheMicroTechSeries’includetwo
seperate power transformers (one for each channel),
a full time full speed fan which also serves as the low
voltage transformer, slew rate limiting, and audio
muting for delay or protective action. This amplifier
canoperateineitheraBridgedorParallelMonomode
as well as dual (stereo). A sensitivity switch allows
selection of input voltage required for rated output.
Level controls are mounted on the rear panel and are
of the rotary type. Front panel indicators let the user
know the status of the low voltage power supply
(enable), and an ODEP indicator for each channel
whichshowsthereserveenergystatus.Ingeneral,the
packaging of this model is designed for maximum
watt/price/weight/size value with user friendly fea-
tures.
Foradditionaldetailsrefertothespecificationsection,
or to the applicable Owner’s Manual.
FRONT END OPERATION
Thefront endis comprisedof three stages: Balanced
Gain Stage (BGS), Variable Gain Stage (VGS), and
theError Amp.Figure1 showsasimplified diagramof
a typical front end with voltage amplification stages.
Balanced Gain Stage (BGS)
Input to the amplifier is balanced. The shield may be
isolated from chassis ground by an RC network to
interrupt ground loops via the Ground Lift Switch. The
non-inverting (hot) side of the balanced input is fed to
the non-inverting input of the first op-amp stage. The
inverting (negative) side of the balanced input is fed
to the inverting input of the first op-amp stage. A
potentiometerisprovidedforcommonmoderejection
adjustment. Electrically, the BGS is at unity gain.
(From an audio perspective, however, this stage
actually provides +6dB gain if a fully balanced signal
is placed on its input.) The BGS is a non-inverting
stage. It’s output is delivered to the Variable Gain
Stage.
Variable Gain Stage (VGS)
FromtheoutputoftheBGS,thesignalgoestotheVGS
where gain is determined by the position of the Sen-
sitivity Switch, and level is determined by the level
control. VGS is an inverting stage with the input being
fedto itsop-amp stage.Because gainafter thisstage
is fixed at 26dB (factor of 20), greater amplifier sensi-
tivityisachievedbycontrollingtheratiooffeedbackto
input resistance. The Sensitivity Switch sets the input
impedanceto thisstage andvaries thegain suchthat
the overall amplifier gain is 26 dB, or is adjusted
appropriately for 0.775V or 1.4V input to attain rated
output.
Error Amp
The inverted output from the VGS is fed to the non-
invertinginputoftheErrorAmpop-ampstagethrough
anACcouplingcapacitorandinputresistor.Amplifier
output is fed back via the negative feedback (NFb)
loop resistor. The ratio of feedback resistor to input
resistor fixes gain from the Error Amp input to the
output of the amplifier at 26 dB. Diodes prevent
overdriving the Error Amp. Because the Error Amp
Micro-Tech 600 Amplifier Service Manual
9
Theory
amplifies the difference between input and output
signals, any difference in the two waveforms will
produceanearopenloopgainconditionwhichinturn
results in high peak output voltage. The output of the
Error Amp, called the Error Signal (ES) drives the
Voltage Translators.
VOLTAGE AMPLIFICATION
The Voltage Translator stage separates the output of
the Error Amp into balanced positive and negative
drive voltages for the Last Voltage Amplifiers (LVAs),
translatingthesignalfromgroundreferenced±15Vto
±Vccreference.LVAsprovidethemainvoltageampli-
fication and drive the High Side output stages. Gain
from Voltage Translator input to amplifier output is a
factor of 25.2.
Voltage Translators
A voltage divider network splits the Error Signal (ES)
into positive and negative drive signals for the bal-
ancedvoltagetranslatorstage.Theseoffsetreference
voltages drive the input to the Voltage Translator
transistors. A nested NFb loop from the output of the
amplifier mixes with the inverted signal riding on the
offsetreferences.Thisnegativefeedbackfixesgainat
theoffset referencepoints (andthe output ofthe Error
Amp) at a factor of -25.2 with respect to the amplifier
output. The Voltage Translators are arranged in a
common base configuration for non-inverting voltage
gain with equal gain. They shift the audio from the
±15V reference to VCC reference. Their outputs drive
their respective LVA.
Also tied into the Voltage Translator inputs are ODEP
limiting transistors and control/protection transistors.
The ODEP transistors steal drive as dictated by the
ODEP circuitry (discussed later). The control/protec-
tiontransistorsactasswitchestototallyshuntaudioto
ground during the turn-on delay, or during a DC/LF or
Fault protective action.
Last Voltage Amplifiers (LVAs)
The Voltage Translator stage channels the signal to
the Last Voltage Amplifiers (LVA's) in a balanced
configuration.The+LVAand-LVA,withtheirpush-pull
effect through the Bias Servo, drive the fully comple-
mentary output stage. The LVAs are configured as
common emitter amplifiers. This configuration pro-
videssufficientvoltagegainandinvertstheaudio.The
polarity inversion is necessary to avoid an overall
polarity inversion from input jack to output jack, and it
allows the NFb loop to control Error Amp gain by
feedingback toitsnon-invertinginput(withitspolarity
opposite to the output of the VGS). With the added
voltage swing provided by the LVAs, the signal then
gains current amplification through the Darlington
emitter-follower output stage.
GROUNDED BRIDGE TOPOLOGY
Figure 2 is a simplified example of the grounded
bridge output topology. It consists of four quadrants
of three deep Darlington (composite) emitter-follower
stages per channel: one NPN and one PNP on the
High Side of the bridge (driving the load), and one
NPN and one PNP on the Low Side of the bridge
(controlling the ground reference for the rails). The
output stages are biased to operate class AB+B for
ultra low distortion in the signal zero-crossing region
and high efficiency.
+
-+
-+
-
BGS VGS Error
Amp
Audio
Inputs
Voltage Divider
NFb Loop
+
-
ODEP Mute
+15V
-15V
+VCC
-VCC
NPN Outputs (+HS)
PNP Outputs (-HS)
Q100
Q103
Q121
Q122
Q101
Q102
Q105
Q110
Voltage
Translators
LVA's
Figure 1. Typical Amplifier Front End and Voltage Amplification Stages.
Micro-Tech 600 Amplifier Service Manual
10
High Side (HS)
The High Side (HS) of the bridge operates much like
aconventionalbipolarpush-pulloutputconfiguration.
Astheinputdrivevoltage becomes morepositive,the
HSNPN conductsand deliverspositive voltageto the
load. Eventually the NPN devices reach full conduc-
tion and +Vcc is across the load. At this time the HS
PNP is biased off. When the drive signal is negative
going,theHSPNPconductstodeliver-Vcctotheload
and the HS NPN stage is off.
The output of the +LVA drives the base of predriver
device. Together, the predriver and driver form the
first two parts of the three-deep Darlington and are
biased class AB. They provide output drive through
the bias resistor, bypassing the output devices, at
levelsbelow about100mW. AnRLC network between
the predriver and driver provide phase shift compen-
sation and limit driver base current to safe levels.
Output devices are biased class B, just below cutoff.
Atabout100mWoutputtheyswitchontoconducthigh
currenttotheload.Togetherwithpredriveranddriver,
the output device provide an overall class AB+B
output.
The negative half of the HS is almost identical to the
positive half, except that the devices are PNP. One
difference is that the PNP bias resistor is slightly
greaterin valuesothat PNPoutput devicesrun closer
Theory
+
-
+Vcc (Positive Rail)
-Vcc (Negative Rail)
Load
(speaker)
Input
signal
HIGH SIDE LOW SIDE
Inverting Op-amp
Figure 2. Crown Patented Grounded Bridge Topology
to the cutoff level under static (no signal) conditions.
This is because PNP devices require greater drive
current.
HS bias is regulated by Q18, the Bias Servo. Q18 is a
Vbe multiplier which maintains approximately 3.3V
Vceunderstaticconditions.Thepositiveandnegative
halves of the HS output are in parallel with this 3.3V.
With a full base-emitter on voltage drop across
predrivers and drivers, the balance of voltage results
inapproximately.35Vdropacrossthebiasresistorsin
thepositivehalf,andabout.5Vacrossthebiasresistor
inthenegativehalf.Q18conduction(andthusbias)is
adjustable.
A diode string prevents excessive charge build up
within the high conduction output devices when off.
Flyback diodes shunt back-EMF pulses from reactive
loads to the power supply to protect output devices
from dangerous reverse voltage levels. An output
terminating circuit blocks RF on output lines from
entering the amplifier through its output connectors.
Low Side (LS)
The Low Side (LS) operates quite differently. The
power supply bridge rectifier is not ground refer-
enced, nor is the secondary of the main transformer.
In other words, the high voltage power supply floats
withrespecttoground,but±Vccremainconstantwith
Micro-Tech 600 Amplifier Service Manual
11
respecttoeach other. Thisallows thepower supplyto
deliver +Vcc and -Vcc from the same bridge rectifier
and filter as a total difference in potential, regardless
of their voltages with respect to ground. The LS uses
inverted feedback from the HS output to control the
ground reference for the rails (±Vcc). Both LS quad-
rantsarearrangedina three-deep Darlingtonandare
biased AB+B in the same manner as the HS.
Whentheamplifieroutputswingspositive,theaudiois
fed to an op-amp stage where it is inverted. This
invertedsignalis delivered directlyto thebases ofthe
positive(NPN)and negative(PNP) LSpredrivers.The
negative drive forces the LS PNP devices on (NPN
off). As the PNP devices conduct, Vce of the PNP
Darlington drops. With LS device emitters tied to
ground, -Vcc is pulled toward ground reference.
Sincethepowersupplyisnotgroundreferenced(and
the total voltage from +Vcc to -Vcc is constant) +Vcc
is forced higher above ground potential. This contin-
ues until, at the positive amplifier output peak, -Vcc =
0V and +Vcc equals the total power supply potential
with a positive polarity. If, for example, the power
supplyproducedatotalof70Vfromrailtorail(±35VDC
measured from ground with no signal), the amplifier
output would reach a positive peak of +70V.
Conversely, during a negative swing of the HS output
where HS PNP devices conduct, the op-amp would
output a positive voltage forcing LS NPN devices to
conduct. This would result in +Vcc swinging toward
ground potential and -Vcc further from ground poten-
tial. At the negative amplifier output peak, +Vcc = 0V
and -Vcc equals the total power supply potential with
anegativepolarity.Usingthesameexampleasabove,
a 70V supply would allow a negative output peak of -
70V. In summary, a power supply which produces a
total of 70VDC rail to rail (or ±35VDC statically) is
capableofproducing140Vpeak-to-peakattheampli-
fier output when the grounded bridge topology is
used. The voltage used in this example are relatively
close to the voltages of the PB-1/460CSL.
The total effect is to deliver a peak to peak voltage to
the speaker load which is twice the voltage produced
bythe powersupply. Benefitsinclude fullutilization of
the power supply (it conducts current during both
halves of the output signal; conventional designs
require two power supplies per channel, one positive
and one negative), and never exposing any output
device to more than half of the peak to peak output
voltage (which does occur in conventional designs).
Theory
Low side bias is established by a diode string which
also shunts built up charges on the output devices.
Bias is adjustable via potentiometer. Flyback diodes
perform the same function as the HS flybacks. The
output of the LS is tied directly to chassis ground via
ground strap.
OUTPUT DEVICE EMULATION PROTECTION
(ODEP)
Tofurtherprotecttheoutputstages,aspeciallydevel-
oped ODEP circuit is used. It produces a complex
analog output signal. This signal is proportional to the
always changing safe-operating-area margin of the
output transistors. The ODEP signal controls the Volt-
age Translator stage by removing drive that may
exceed the safe-operating-area of the output stage.
ODEP senses output current by measuring the volt-
age dropped across LS emitter resistors. LS NPN
current (negative amplifier output) and +Vcc are
sensed,thenmultipliedtoobtainasignalproportional
tooutputpower.PositiveandnegativeODEPvoltages
areadjustableviatwopotentiometers.Across±ODEP
are a PTC and a thermal sense (current source). The
PTC is essentially a cutoff switch that causes hard
ODEP limiting if heatsink temperature exceeds a safe
maximum, regardless of signal level. The thermal
sense causes the differential between +ODEP and –
ODEPtodecreaseasheatsinktemperatureincreases.
Anincreaseinpositiveoutputsignaloutputintoaload
will result in –ODEP voltage dropping; an increase in
negativeoutputvoltageandcurrentwillcause+ODEP
voltage to drop. A complex RC network between the
±ODEP circuitry is used to simulate the thermal barri-
ers between the interior of the output device die
(immeasurable by normal means) and the time delay
fromheat generationat thedie untilheat dissipatesto
the thermal sensor. The combined effects of thermal
history and instantaneous dynamic power level result
in an accurate simulation of the actual thermal condi-
tion of the output transistors.
Micro-Tech 600 Amplifier Service Manual
12
Theory
NEGATIVE
LOW SIDE
OUTPUT
PNP STAGE
POSITIVE
LOW SIDE
OUTPUT
NPN STAGE
NEGATIVE
HIGH SIDE
OUTPUT
PNP STAGE
POSITIVE
HIGH SIDE
OUTPUT
NPN STAGE
HIGH SIDE
BIAS
SERVO
+LVA
-1
-LVA
-1
+VOLTAGE
TRANSLATOR
-VOLTAGE
TRANSLATOR
OUTPUT
DEVICE
EMULATION
PROTECTION
ERROR
AMP
VGSBGS
BALANCED
INPUTS
INVERTING
BRIDGE
BALANCE
LOW SIDE
BIAS
DIODE
STRING
-1
-1
MAIN NEGATIVE FEEDBACK (NFb) LOOP
Figure 3. Typical Crown Amplifier Basic Block Diagram (One Channel Shown)
Micro-Tech 600 Amplifier Service Manual
13
Electrical Checkout Procedures
GENERAL INFORMATION
The following test procedures are to be used to verify
operation of this amplifier. DO NOT connect a load or
inject a signal unless directed to do so by the proce-
dure. These tests, though meant for verification and
alignment of the amplifier, may also be very helpful in
troubleshooting. For best results, tests should be
performed in order.
AlltestsassumethatACpowerisfromaregulated120
VAC source. Test equipment includes an oscillo-
scope, a DMM, a signal generator, loads, and I.M.D.
and T.H.D. noise test equipment.
STANDARD INITIAL CONDITIONS
Level controls fully clockwise.
Stereo/Mono switch in Stereo.
Sensitivity switch in 26 dB fixed gain position.
It is assumed, in each step, that conditions of the
amplifier are per these initial conditions unless other-
wise specified.
TEST 1: DC OFFSET
Spec: 0 VDC, ±10 mV.
InitialConditions:Controlsperstandard,inputsshorted.
Procedure: Measure DC voltage at the output connec-
tors (rear panel). There is no adjustment for output
offset.Ifspecisnotmet,thereisanelectricalmalfunc-
tion. Slightly out of spec measurement is usually due
to U104/U204 out of tolorance.
TEST 2: OUTPUT BIAS ADJUSTMENT
Spec: 300 to 320 mVDC.
InitialConditions: Controlsperstandard, heatsink tem-
perature less than 40°C.
Procedure:MeasureDCvoltagesontheoutputmodule
across R02, adjust R26 if necessary. Measure DC
voltagesontheoutputmoduleacrossR21,adjustR23
if necessary. Repeat for second channel.
TEST 3: ODEP VOLTAGE ADJUSTMENT
Spec: Bias Per Chart, ±0.1V DC.
Initial Conditions: Controls per standard, heatsink at
room temperature 20 to 30°C (68 to 86°F). Note: This
adjustment should normally be performed within 2
minutes of turn on from ambient (cold) conditions. If
possible measure heatsink temperature, if not mea-
sure ambient room temperature. Use this information
when referencing the following chart. The following is
a list of ODEP bias voltages VS. temperature.
°F °C V–ODEP V+ODEP
66 18.9 –10.31 11.41
68 20.0 –10.26 11.36
70 21.1 –10.20 11.30
72 22.2 –10.14 11.24
74 23.3 –10.09 11.19
76 24.4 –10.03 11.13
77 25.0 –10.00 11.10
78 25.6 –9.97 11.07
80 26.7 –9.91 11.01
82 27.8 –9.86 10.96
84 28.9 –9.80 10.90
86 30.0 –9.74 10.84
88 31.1 –9.69 10.79
90 32.2 –9.63 10.73
92 33.3 –9.57 10.67
94 34.4 –9.51 10.61
–ODEP Procedure: Measure pin 6 of U100 and, if
necessary, adjust R121 to obtain V–ODEP as specified
above. Measure pin 6 of U200 and, if necessary,
adjust R221 to obtain V–ODEP as specified above.
+ODEP Procedure: Measure pin 6 of U103 and, if
necessary, adjust R132 to obtain V+ODEP as specified
above. Measure pin 6 of U203 and, if necessary,
adjust R232 to obtain V+ODEP as specified above.
Micro-Tech 600 Amplifier Service Manual
14
TEST 4: AC POWER DRAW
Spec: 100 Watts maximum quiescent.
Initial Conditions: Controls per standard.
Procedure: With no input signal and no load, measure
AC line wattage draw. If current draw is excessive,
check for high AC line voltage or high bias voltage.
TEST 5: COMMON MODE REJECTION
Spec at 100 Hz: –70 dB.
Spec at 20 kHz: –50 dB.
Initial Conditions: Controls per standard.
Procedure: Noload. Injecta 0dBu(.775VRMS) 100Hz
sine wave into each channel, one channel at a time,
with inverting and non-inverting inputs shorted to-
gether. At the output measure less than –44 dBu
(4.9mVRMS). Inject a 0 dBu 20 kHz sine wave into
eachchannel,onechannelatatime,withinvertingand
non-inverting inputs shorted together. At the output
measure less than –24 dBu (49mVRMS). For Main
Modules with board numbers lower than D 7993-5
adjust N100 and N200 to calibrate CMR. For Main
Modules with board number D 7993-5 or greater
adjust R921 and R1021.
TEST 6: VOLTAGE GAIN
Spec 26dB Gain: Gain of 20.0 ±3%.
Spec 0.775V Sensitivity: ±6%.
Spec 1.4V Sensitivity: +12%/–6%.
Initial Conditions: Controls per standard.
Procedure: No load connected. Inject a 0.775 VAC 1
kHz sine wave with the Sensitivity Switch in the 26 dB
position.Measure 15.5VAC ±0.5VAC atthe amplifier
output. Inject a 0.775 VAC 1 kHz sine wave with the
SensitivitySwitchinthe0.775Vposition.Measure43.4
VAC±2.6VACattheamplifieroutput.Injecta1.4VAC
1 kHz sine wave with the Sensitivity Switch in the 1.4V
position. Measure 43.4 VAC +5.2/–5.6 VAC at the
amplifieroutput.ReturntheSensitivitySwitchtothe26
dB position.
TEST 7: PHASE RESPONSE
Spec: ±10° from 10 Hz to 20 kHz at 1 Watt.
InitialConditions:Controlsperstandard,8ohmloadon
each channel.
Procedure: Inject a 1 kHz sine wave and adjust for 1
Wattoutput(2.8VAC).Checkinputandoutputsignals
against each other, input and output signals must be
within 10° of each other.
Electrical Checkout Procedures
TEST 8: LEVEL CONTROLS
Spec: Level controlled by level controls.
Initial Conditions: Controls per standard.
Procedure: No Load. Inject a 1 kHz sine wave. With
level controls fully clockwise you should see full gain.
As controls are rotated counterclockwise, observe
similar gain reduction in each channel. When com-
plete, return level controls to fully clockwise position.
TEST 9: CURRENT LIMIT
Spec: Current Limit at 20 Amps, ±2 Amps
Initial Conditions: Controls per standard.
Procedure:Loadeachchannelto1Ohm.Injecta1kHz
differentiated (or 10% duty cycle) square wave. See
figure 4. Increase output level until current limit oc-
curs. Current limit should occur at 20 ±2 Amps (20
Vpk).Observeclean(nooscillations)currentclipping.
In Out
.047 uF
1K Ohm
Figure 4. Differentiator Circuit
TEST 10: SLEW RATE & 10 KHZ SQUARE WAVE
Spec: 13 - 15 V/µS.
Initial Conditions: Controls per standard.
Procedure: Load each channel to 8 ohms. Inject a 10
kHz square wave to obtain 52 volts peak-to-peak at
eachoutput. Observethe slopeof thesquare wave. It
should typically measure 13 to 15 V/µS. Also, the
square wave must not include overshoot, ringing, or
any type of oscillation.
TEST 11: CROSSTALK
Spec: -60dB at 20 kHz.
Initial Conditions: Controls per standard. Terminate
input of channel not driven with 600 ohms.
Procedure:8ohmloadoneachchannel.Injecta20kHz
sinewaveintotheChannel1inputandincreaseoutput
level to 33 VAC. Measure less than 33 mVAC at the
outputofChannel2. Injecta 20 kHzsine waveinto the
Channel 2 input and increase output level to 33 VAC.
Measure less than 33 mVAC at the output of Channel
1.
Micro-Tech 600 Amplifier Service Manual
15
Electrical Checkout Procedures
TEST 12: OUTPUT POWER
Spec at 8 Ohm Stereo: >= 235W at 0.1% THD.
Spec at 4 Ohm Stereo: >= 340W at 0.1% THD.
Spec at 2 Ohm Stereo: >= 410W at 0.1% THD.
International 8 Ohm Stereo: >=220W at 0.1% THD.
International 4 Ohm Stereo: >=275W at 0.1% THD.
International 2 Ohm Stereo: >=300W at 0.1% THD.
Initial Conditions: Controls per standard.
Procedure:Loadeachchannelto8ohms.Injecta1kHz
sine wave and measure at least 43.36 VAC at the
outputofeachchannel.Loadeachchannelto4ohms.
Inject a 1 kHz sine wave and measure at least 36.88
VAC.Loadeachchannelto2ohms.Injecta1kHzsine
wave and measure at least 28.64 VAC. All power
measurements must be at less than 0.1% THD.
TEST 13: REACTIVE LOADS
Spec: No oscillations. Safe with all types of loads.
Initial Conditions: Controls per standard.
Procedure Capacitive: Load each channel to 8 ohms in
parallel with 2 µF. Inject a 20 kHz sine wave with 33
VAC output for 10 seconds.
Procedure Inductive: Load each channel to 8 ohms in
parallel with 159 µHenries. Inject a 1 kHz sine wave
with 15 VAC output for 10 seconds.
Procedure Torture: Loadeach channelwiththeprimary
(red and black leads) of a DC-300A transformer (D
5781-6). Inject a 15 Hz sine wave at sufficient output
level to cause 3 to 5 flyback pulses, for 10 seconds.
Procedure Short: Inject a 60 Hz sine wave at 15 VAC
output. After establishing signal, short the output for
10 seconds.
TEST 14: ODEP LIMITING
Spec: No oscillation on ODEP Limiting wave form;
eitherchannelcontrolslimitinginParallelMonoMode.
Initial Conditions: Controls per standard; rag or other
obstruction blocking fan so that it does not turn.
Procedure: Load the amplifier to 2 ohms on each
channel. Inject a 60 Hz sine wave and adjust for 15
Vrmsattheoutput.Afterafewminutesobserveawave
form similar to Figure 5. Remove the input signal from
bothchannels and allow the amplifier to coolfor afew
minutes. Switch the amplifier to Parallel Mono and
remove the load from Channel 1. Inject the signal into
Channel 1 and observe that ODEP limiting occurs at
the output of both channels. Remove the load from
Channel 2, and install the load on Channel 1. Again,
observe that both channels limit. Return all amplifier
controlstostandard initialconditions. Removethe fan
obstruction.
TEST 15: LF PROTECTION
Spec: Amplifier mutes for low frequency.
Initial Conditions: Controls per standard.
Procedure:Noload.Inject a 0.5Hz 6volt peak-to-peak
square wave, or a 2 Hz 6VAC sine wave into each
channelandverifythateachchannelcyclesintomute.
TEST 16: SIGNAL TO NOISE RATIO
Spec: 100 dB below rated 8 ohm power 20 Hz to 20
kHz. 105 dB A-Weighted.
Initial Conditions: Controls per standard. Short inputs.
Procedure: Load each channel to 8 ohms. Measure
lessthan434µV at theoutput ofeach channel (20Hz-
20 kHz bandpass filter).
TEST 17: TURN ON TRANSIENTS
Spec: No dangerous transients.
Initial Conditions: Controls per standard.
Procedure: From an off condition, turn on the amplifier
and monitor the output noise at the time of turn on.
Note: Turn on noise may increase significantly if the
amplifier is cycled off and on.
Figure 5. ODEP Limiting Wave Form
Micro-Tech 600 Amplifier Service Manual
16
TEST 18: TURN OFF TRANSIENTS
Spec: No dangerous transients.
Initial Conditions: Controls per standard.
Procedure: From an on condition, turn off the amplifier
and monitor the output noise at the time of turn off.
Note: Turn off noise may increase significantly if the
amplifier is cycled off and on.
TEST 19: INTERMODULATION DISTORTION
Spec at 0 dB Output: 0.01%.
Spec at –35 dB Output: 0.05%.
Initial Conditions: Controls per standard.
Procedure: Load each channel to 8 ohms. Inject a
SMPTEstandardIMsignal(60Hzand7kHzsinewave
mixed at 4:1 ratio). Set the 60 Hz portion of the sine
wave to 34.7 Volt RMS. Set the 7 kHz portion to 25%.
With an IM analyzer measure less than 0.01% IMD.
Repeattestat–35dB(reference34.7VoltRMS,60Hz
portion) and measure less than 0.05% IMD.
TEST 20: CLIPPING
Spec: No protective action during test.
Initial Conditions: Controls per standard.
Procedure:Loadeachchannelto8ohms.Injecta1kHz
sinewaveateachinputanddriveoutput6dB into clip
for 10 seconds. The amplifier should not activate any
protective circuits (ODEP, Fault, or LF Protection).
POST TESTING
After completion of testing, if all tests are satisfactory,
the amplifier controls should be returned to the posi-
tionsrequiredbycustomer.Ifconditionsareunknown
or unspecified, factory settings are as follows:
Level Controls: 9 to 11 O’Clock.
Sensitivity Switch: 0.775V U.S., 1.4V International.
Stereo/Mono Switch: Stereo.
Ground Lift: Lift.
Power: Off.
Electrical Checkout Procedures
Micro-Tech 600 Amplifier Service Manual
17
Parts List (Non-Module)
SUPPLIMENTAL ITEMS
CPN ITEM QTY
D 4137-2 Nylon Thumbscrew Washer 4
C 3342-0 Feet, Black Self-Stick 4
A10087-71012 10-32 .75 Machine (Rack Screw) 4
K80603-2 MT Series Owners Manual 1
POWER SUPPLY
CPN ITEM QTY
M43534-3 MT Fuse Board Assembly (120V, 60Hz Units Only) 1
D 8069-4 Fuse Board Insulator 1
Q42867-4 Fuse Module, Ch 1 (50-60 Hz Units) 1
Q42866-6 Fuse Module, Ch 2 (50-60 Hz Units) 1
A10285-23 7 Amp Fuse (100-120V Units) 2
A10285-21 5 Amp Fuse (200-240V Units) 2
A10285-7 .5 Amp Fuse (120V 60Hz Units Only) 1
D 6419A0 Power Transformer (120V 60Hz Units Only) 2
D 7685-7 Power Transformer (50-60Hz Universal Voltage) 2
D 6301A0 Transformer Air Seal Gasket 2
A10087-11028 10-32 x 1.75 Screw for 60Hz power transformer 8
A10089-11032 10-32 x 2 Screw for 50-60Hz power transformer 8
A10101-19 500OD x 195ID Fiber Washer 4
H42873-2 Transmotor (120V 60Hz Only) 1
H43068-8 Transmotor (100V Units Only) 1
H43407-8 Transmotor (120V 50Hz Only) 1
H43061-3 Transmotor (200-240V Units Only) 1
D 8439-8 Fan Bracket 1
C 9939-7 Fan Blade 1
C 7062-0 6-32 x 5/16 Flat head Screw 2
C 7015-8 7800µF 90V Capacitor 2
C 8752-5 35 Amp 400V Bridge Rectifier 2
D 8438-0 Capacitor Bracket 2
A10095-4 #10 External Star Lockwasher 4
A10098-5 1/4" Belleville Spring Washer 4
C 9870-4 10-32 x .38 Screw 4
D 6764-1 Shoulder Washer 4
OUTPUT ASSEMBLY (ONE PER CHANNEL)
CPN ITEM QTY (PER CHANNEL)
C 4751-1 NPN Power Transistor 4
C 6492-0 PNP Power Transistor 4
A 10315-1 6-32 x .56 Hex wshr HD 12
C 7326-9 #6 Solder Lug 2
C 9491-9 6-32 x .312 pan head 19
D 7796-2 Sil Pad (between heatsink and chassis) 1
D 7797-0 Pad (between module and chassis) 1
D 8197-2 Paper Shroud 1
C 9387-9 Plasti-Rivit 2
D 8774-8 PTC, 95 Deg. Thermal Sensor 1
F12019-0 Aluminum Heatsink Slug (under diodes on output mod) 1
Micro-Tech 600 Amplifier Service Manual
18
Parts List (Non-Module)
OUTPUT ASSEMBLY (CONT.)
CPN ITEM QTY (ONE PER CHANNEL)
C 8813-5 MPS8097/MPSA18 NPN Transistor (Q318/Q418) 1
B 5842-8 #23 Tubing for Q318/Q418 transistor leads Order in inches
C 5826-0 LM-234Z-6 Thermal Sense (S100/S200) 1
B 5464-1 #24 Teflon Tubing for S100/S200 Order in inches
C 8573-5 2SA1186 Power Transistor, PNP Driver (TO3P) 2
C 8574-3 2SC2837 Power Transistor, NPN Driver (TO3P) 2
M20586-0 PNP Driver Transistor Assembly, TO220 (Old style) 2
M20587-8 NPN Driver Transistor Assembly, TO220 (Old style) 2
D 7665-9 Clip, TO3P Mounting 2
D 7666-7 Bracket, TO3P Heatsink 2
M21324-5 Aluminum Heatsink with fins 2
BACK PANEL ASSEMBLY
CPN ITEM QTY
M21208J9 MT Back Panel 1
F10787J3 Back Panel Cover Plate 1
D 7074-4 Power Cord (US Version) 1
A10793-0503B Power Cord (European Version) 1
A10214-7 Strain Relief 1
C 2823-0 Dual Binding Post 2
D 7600-6 Dual Banana Ground Strap 1
CHASSIS FRONT ASSEMBLY
CPN ITEM QTY
C 6487-0 Power Switch, 2 Pole 22 Amp Rocker 1
D 8052J8 End Cap 2
A10031-1 8-32 x .060 Flush Captive Nut 4
A10090-70808 8-32 x .5 Oval Head Screw 4
F12435J7 Grill, Metal 1
D 6944-9 Air Filter 1
A10173-1 Grill Clip 3
A10101-5 Nylon Washer 3
A10090-70806 8-32 x .375 Oval Head Screw 3
M43380-1 Old Filter Housing Assembly (Plastic) 1
C 6614-9 Rubber Grommets used with old filter assembly 12
F12263J3 Front Panel Overlay "ODEP" 1
F10861A5 Old Front Panel Overlay "Supply" 1
To upgrade the old plastic filter assembly to the new metal style, a kit may be ordered using Crown part
number M44077-2. This kit includes a new bottom cover.
MAIN CHASSIS ASSEMBLY
CPN ITEM QTY
D 8501-5 Cover, Top 1
D 8548-6 Cover, Bottom 1
-Note: The old Style bottom cover used with
the plastic grill is no longer available. You may
upgrade to the new style by ordering the kit
M44077-2
Micro-Tech 600 Amplifier Service Manual
19
Parts List (Non-Module)
MAIN CHASSIS ASSEMBLY (CONT.)
CPN ITEM QTY.
A10110-70605 Screw, 6-32-.312 Taptite Ph (Covers) 20
A10086-70806 8-32 x .37 Screw 3
A10094-3 #6 Internal Star Washer 3
A10094-6 #8 Internal Star Washer 4
A10094-8 #10 Internal Star Washer, Zinc 12
A10099-7 #10 Nylonb Shoulder Washer 8
A10100-16 7/16OD x .203ID Washer 8
A10102-8 10-32 Hex Nut 12
A10109-10822 8-18 x 1.375 Pan Head Screw 2
A10110-70812 8-32 x .750 Taptite Pan Head Screw 2
A10192-1 .500 Snap Bushing 4
A11376-6130J 13 inch Black Output Wire 1
A11376-6235J 23 inch Black Output Wire 1
A11394-6160E 16 inch Red Output Wire 1
A11394-6235E 23.5 inch Red Output Wire 1
C 1811-6 4" Cable Tie 4
C 1813-2 7.5" Cable Tie 2
C 3163-0 Solder Lug, #6 Hole 1
C 6709-7 Ferrite Bead 4
C 6912-7 Tension Retaining Board Support 2
C 6913-5 1" Spacer toggle nut, Plastic 2
C 6914-3 .75" Spacer toggle nut, Plastic 2
C 9491-9 6-32 x .312 Pan Head Screw 4
C 9953-8 2-20 x .312 Pan Head Screw 6
C10111-0 Button, Mtg 2
D 7622-0 16.5" 28AWG Ribbon Cable, 16 Pin 1
H43424-3 Tube, .75 x 3.5 Slit 1
H43451-6 Tube, .375 x 3.5 1
Micro-Tech 600 Amplifier Service Manual
20
Module and Schematic Information
MODULE HISTORY
TheMicro Tech 600amplifierwas introducedinJanu-
ary1986.Sincethentherehavebeenseveralupdates
and revisions, some of which called for new modules.
The following is a list of all modules used up to this
date, August 1995.
OUTPUT MODULES: (left and right are identical)
Q42549-8
OriginaloutputmoduleonP10115-7board.Nolonger
available. Use Q42717-1 as service replacement.
Q42647-0
OutputmoduleonP10137-1.Nolongeravailable.Use
Q42717-1 as service replacement.
Q42717-1
Output module on P10233-8 board.
Q42871-6
Output module on P10305-4 board.
Q42968-0
Output module on P10341-9 board. No longer avail-
able. Use Q43202-3 as service replacement.
Q43202-3
Output module on P10397-1 board.
MAIN MODULES:
Q42552A0
Original main module on D 6304A4 or D 6304B2
board. No longer available. Use Q42776-7 as service
replacement.
Q42713-0
Mainmodule onD 6910-0board.No longeravailable.
Use Q42776-7 as service replacement.
Q42776-7
Main module on D 7251-8 board. Used as a replace-
ment for all older modules.
Q42983-9
Main module on D 7911-7 board. No longer available
use Q43033-2 as service replacement.
Q43038-1
Main module on D 7993-5 board. No longer available
use Q43033-2 as service replacement.
Q43033-2
Main module on D 7993-5 board.
FUSE MODULE:
M43534-3 (120V 60Hz U.S. Units Only)
Fuse module on P10391-4 board.
Q42866-6 -Channel 2 (Universal Volt Units Only)
Fuse module on P10296-5 board.
Q42867-4 -Channel 1 (Universal Volt Units Only)
Fuse module on P10295-7 board.
DISPLAY MODULE:
Q43061-3 (With ODEP Indicators)
Display module on D 8030-5 board.
M43530-1 (Old style with SUPPLY Indicators)
LED Assembly.
SCHEMATIC INFORMATION:
The schematics provided are representative only.
There may be slight variations between amplifier to
amplifier. These schematics are intended to be used
for troubleshooting purposes only.
For amplifiers with main boards D 6304A4, D 6304B2
or D 6910-0 refer to schematic number J0191-7.
For amplifiers with main board D 7251-8 refer to
schematic number J0444-0.
For amplifiers with main boards D 7911-7 or D 7993-
5 refer to schematic number J0638-8.
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