Series 9180/ 9270 Power Amplifier
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NOTICE IMPORTANT SAFETY INFORMATION
-
The lightning flash with arrowhead symbol within
an equilateral triangle is intended to alert the
user to the presence of uninsulated “dangerous
voltage” within the products enclosure, that may
be of sufficient magnitude to constitute a risk of
electric shock to persons.
The exclamation point within an equilateral
triangle is intended to alert the user of the
presence of important operating and mainte-
nance (servicing) instructions in the literature
WARNING: TO PREVENT FIRE OR
SHOCK HAZARD, DO NOT EXPOSE THIS
EQUIPMENT TO RAIN OR MOISTURE.
accompanying
the
appliance.
1 .
READ INSTRUCTIONS
All the safety and operating instructions of your Hafler equipment should be read before power is applied to the
equipment.
RETAIN OWNERS MANUAL
These safety and operating instructions should be retained for future reference.
2 .
3 .
4 .
HEED WARNINGS
All warnings on the equipment and in the operating instructions are important and should be followed.
FOLLOW INSTRUCTIONS
All operating and use instructions are important and should be followed.
HEAT
5.
The equipment should be kept away from areas of high temperature, such as heater vents, radiators, stoves/ovens,
fireplaces, etc.
6 .
VENTILATION
The equipment should be used in an area suitable for proper ventilation. Care should be taken not to impede airflow
in and around the cabinet. Do not mount on a carpeted shelf or in a sealed enclosure. Allow for proper clearance
above the equipment.
7 .
aa ..
WATER AND MOISTURE
The equipment should not be used in or around water, such as
should not be used in areas prone to flooding, such as a basement.
a
bathtub, sink, or swimming area. Also, the equipment
POWER SOURCES
The equipment should be connected only to a power source of the same voltage and frequency as that listed on the
rear panel above the power cord entry point.
POWER CORD PROTECTION
9 .
Power cords should be arranged so that they do not interfere with the movement of objects in the room: people, fan
blades, utility carts, etc. Also, care should be taken that the cord is not pinched or cut, and placed so that it is not
in danger of being pinched or cut, as in under a rug, around a tight corner, etc.
10. POWER CORD GROUNDING
The power supply cord is of a three wire grounded type, designed to reduce the risk of electric shock sustained from
a live cabinet. It is assumed to be of suitable length for most uses of the equipment. The use of extension cords and
power strips is discouraged unless they are of suitable rating to deliver the required total current for safe operation
of all connected equipment. Furthermore, extension cords or power strips must provide the same three wire
grounded connection. It is important that the blades of the equipment’s plug be able to fully insert into the mating
receptacle. Never remove the round grounding pin on the plug in an attempt to mate to a two wire ungrounded
receptacle: use a grounding adaptor with the grounding tab or wire suitably connected to earth ground.
-1-
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11. NON-USE PERIODS
During periods of extended non-use, the power cord should be unplugged from the power source.
12. CLEANING
The equipment should be cleaned only as detailed in the operating instructions.
13. OBJECT AND LIQUID ENTRY
Care should be taken so that objects and/or liquids, such as cleaning fluids or beverages, are not spilled into the
enclosure of the equipment.
14. DAMAGE REQUIRING SERVICE
Hafler equipment should be serviced by qualified service personnel when:
A. The power supply cord or plug has been damaged, or
B. Objects have fallen, or liquid has been spilled into the equipment, or
C. The equipment has been exposed to rain, or
D. The equipment does not appear to operate normally or exhibits a marked change in performance, or
E. The equipment has been dropped, or the enclosure has been damaged.
15. SERVICING
The user should not attempt to service the equipment beyond that which is described in the operating instructions.
All other service should be referred to qualified service personnel.
16. CARTS AND STANDS
The equipment should be used with carts or stands only of sufficient strength and stability for the use intended.
An equipment and cart combination should be moved with care. Quick stops and starts, excessive force, and
uneven surfaces may cause the equipment and cart combination to topple.
-2-
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TABLE OF CONTENTS
4
..........................................................................................
PERFORMANCE SPECIFICATIONS
4
General Information ..............................................................................................................
INSTALLATION
5
Rackmounting.. ......................................................................................................................
Ventilation/Placement.. .........................................................................................................
Line Voltage...........................................................................................................................
5
5
OPERATION/CONNECTIONS
5
5
Switch.. ...............................................................................
Power Cord Connection/Power
Inputs .....................................................................................................................................
Front Panel View Diagram.. ..................................................................................................
Rear Panel View Diagram ....................................................................................................
Outputs ..................................................................................................................................
6
7
8
8
8
8
8
......................................................................................................................
Gain Controls..
Mono/Stereo Switching.........................................................................................................
Soft Turn-On System ............................................................................................................
Thermal Protection System ..................................................................................................
9
CIRCUIT HIGHLIGHTS ...............................................................................................................
ADDITIONAL INFORMATION
10
10
10
Loudspeaker Load Impedance Considerations ...................................................................
Changing Line Voltage Rating .............................................................................................
Adjusting Bias ......................................................................................................................
General Troubleshooting Hints ............................................................................................
Ground Loops ......................................................................................................................
Cleaning/Maintenance ........................................................................................................
Parts List.. ............................................................................................................................
11
11
12
12
14
15
17
Diagram.. .................................................................................................
Functional Block
Component Layout
Circuit Schematic
Diagram.. .............................................................................................
Diagram .................................................................................................
19
LIMITED WARRANTY.......................................................................
SERVICE POLICY AND
-3-
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PERFORMANCE SPECIFICATIONS
All specifications are for 20 Hz
-
20 kHz, at full power into 8 ohms, unless specified otherwise.
Power Rating: 9180: 105 watts per channel (8 ohms)
150 watts per channel (4 ohms)
300 watts mono (8 ohms)
9270: 135 watts per channel (8 ohms)
200 watts per channel (4 ohms)
400 watts mono (8 ohms)
Rated THD:
less than 0.025%, typically 0.005% at 1 kHz
Full Power Bandwidth: 0.3 Hz to 116 kHz
Signal to Noise Ratio:
Input Impedance:
greater than 100 dB, unweighted
47,000 ohms
Input Sensitivity: 9180: 1.4 volts RMS
9270: 1.6 volts RMS
Damping Factor:
Slew Rate:
Controls:
300 to 1 kHz, 200 to 10 kHz
50 V/uS
Power Switch, Left/Right Gain Controls, Mono/Stereo Switch
Right and Left/Mono RCA jacks
GENERAL
INFORMATION
Inputs:
Right, Left, and Mono 5-Way Binding Posts
100 watts quiescent, 1200 watts maximum
17”(W) x 12.5”(D) w3.5”(H) excluding feet, faceplate 17” or 19”(W)
outputs:
Power Consumption:
Size:
43.2cm(W)
x
31.7cm(D)
x
8.9cm(H) excluding feet,
faceplate 43.2cm or 48.3cm(W)
33 Ibs., 15 kg, net.
35 Ibs., 15.9 kg, net.
Weight:
9180:
9270:
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INSTALLATION
The 9180/9270 Amplifier is supplied in either a 17” Black Version, or a 19” Silver Version. The 19”
RACK-
MOUNTING
model has rackmounting holes provided for installation in equipment racks. The holes are on standard
EIA spacings. Due to conflict with adjacent equipment, it may be advisable to remove the four rubber
feet from the bottom of the unit. The feet may be removed from the outside, with no dis-assembly of
the chassis necessary.
VENTILATION/
PLACEMENT
The 9180/9270 Amplifier can produce considerable heat during normal operation. The amplifier should
be placed on a hard, smooth surface to allow air to circulate beneath the unit. Additionally, allow at least
one inch of free space on either side, and several inches above and behind the amplifier to allow air
circulation around the heatsinks. This is particularly important when the unit is installed in a closed
cabinet.
In applications where the amplifier is driving low impedance and/or low efficiency loudspeakers at high
levels, thermal shutdown may occur if inadequate ventilation is provided. If this occurs, it may be
necessary to move the amplifier to a location with better free air circulation.
The amplifier should be located at least several inches away from sensitive components, (such as
preamplifiers, tuners, CD players, turntables, etc.) due to the possibility of audible hum or buzz from
magnetic radiation.
The 9180/9270 Amplifier is configurable for either 100, 120, 220 or 240 volt operation. This is
accomplished by moving the Voltage Selector on the printed circuit board. The procedure is detailed
in the section “CHANGING LINE VOLTAGE RATING”.
LINE
VOLTAGE
Make sure that the unit is configured for your local AC line voltage before attempted use. The
configuration is labelled directly above the power cord connector.
OPERATION/CONNECTIONS
Units wired for 100, 220 and 240 VAC are supplied without power cords. Local agents will supply cords
with male connectors appropriate to the local standard.
POWER CORD
CONNECTION/
POWER SWITCH
Units wired for 120 VAC are supplied with a detachable AC power cord. The female connector plugs
IEC Type 320, 3-wire,
into the receptacle provided on the rear panel. This power cord is a standard IEC Type 320, 3-wire,
16 gauge assembly. Should replacement ever be necessary, be sure to replace it with an identical cord.
Never remove the grounding pin from the male end of the cord. In applications where a grounded outlet
is not available, a ground adaptor should be employed, with the ground tab or wire of the adaptor
connected to a suitable earth ground.
The AC power cord of the amplifier must be connected to a receptacle capable of delivering a minimum
of 1200 watts. The convenience outlets of some preamplifiers are not rated for this power level. Before
connecting the amplifier, be sure to check the rating of such outlets, and take into account the power
consumption of any other connected components to determine the total maximum power consumption.
If the amplifier is connected to a component with a switched convenience outlet, then the amplifier’s
Power Switch may be left ON at all times, and the power controlled by the switched outlet. If the amplifier
is connected to an unswitched outlet, then the amplifier’s power should be controlled by the front panel
Power Switch.
All input connections to the amplifier must be performed with the amplifier off!
INPUTS
The left and right audio inputs to the amplifier are via standard RCA jacks. In addition to the printed
labelling above the jacks, the channels are identified by RED for right channel, and WHITE for left
channel. Connect these jacks to the output of the preamplifier or other signal source.
When operating the amplifier in the Mono Mode, only the left channel input should be used.
-5-
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POWER SWITCH
U P
DOWN
-
-
O N
OFF
LEFT/MONO
GAIN
RACK HANDLES
(19” VERSION ONLY)
RACKMOUNT HOLES
(19” VERSION ONLY)
RIGHT
GAIN
9180
/
9270 AMPLIFIER FRONT PANEL VIEW
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MONO/STEREO
SWITCH
Gt
RI
IN
MONO
O UT
S TEREO IN
AC LINE
VOLTAGE
RATING
LEFT/MONO
INPUT
T T
MONO+
OUTPUT
CONNECTOR
LEFT
OUTPUT OUTPUT
9180
9270 AMPLIFIER REAR PANEL VIEW
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CIRCUIT HIGHLIGHTS
The input stage of the 9180/9270 Amplifier utilizes four low-noise, High-g, JFET’s (high transconductance
junction field-effect transistors), in a fully complimentary, symmetric configuration. This circuit configu-
ration results in excellent front-end headroom and a simple, straightforward connection to the
remainder of the circuitry. The ultra low noise characteristics of the JFET’s virtually eliminates noise
“mixing” (intermodulation) with the music signal, reducing discordant product frequencies known as
“noise grain”, or “noise fuzz”.
The input stage is cascode connected to convert the low voltage input system to the high voltage output
system, and “speeds up” the front end for superior bandwidth. The cascode stage is connected to an
emitter-follower and current mirror configuration that amplifies the current level about ten times,
necessary to drive the biasing string and final output stage driver emitter followers.
The final output stage uses multiple lateral MOSFET’s (Metal Oxide Semiconductor Field Effect
Transistors): four devices per channel in the 9180, and six per channel in the 9270. These devices,
unlike conventional bipolar transistors, have a negativetemperature coefficient, which means that they
do not exhibit “thermal runaway”. Thermal runaway is a phenomenon whereby a transistor heats up
as it conducts more current, which causes it to get hotter, and conduct more current, and so on, until
the device self destructs. Since MOSFET’s are inherently self-protecting, no sonically degrading,
complex circuitry is required to monitor and protect the output devices.
Furthermore, these lateral MOSFET’s exhibit a very linear input to output transfer function. Their
connection in circuits and operating characteristics are very similar to vacuum tubes, which is perhaps
responsible for their widely recognized sonic trait of being very “musical” and non-fatiguing.
Conversion to Mono Mode is accomplished by driving the negative input (feedback point) of the right
channel with the output of the left channel. This causes the right channel to mirror exactly the output
of the left channel, but 180 degrees out of phase. This creates twice the voltage swing to be available
across the two red output binding posts. This simple method of bridging the amplifier (involving only
one resistor) eliminates the costly and sonically degrading invertor circuitry used in other amplifiers.
The Thermal Protection System consists of thermistors (temperature sensitive resistors) mounted to
the heatsinks, connected to a comparator system that activates when the heatsinks reach an unsafe
operating temperature. The output of the comparator system is connected to a small MOSFET switch
that turns off the input stage of the amplifier, which effectively shuts down the entire amplifier. When
the heatsinks cool to a safe temperature, the amplifier is turned on again.
The Soft Turn On/Off System cooperates with the Thermal Protection System by sensing the high
voltage power supply. At power up, when both the comparator and power supply have stabilized to
normal operating levels, the Soft Turn On System activates the amplifier circuitry through the same
MOSFET switch in the input stage. At power down, the system deactivates the amplifier rapidly before
the power supply begins to collapse. This system eliminates spurious noises during the turn on/off
cycle.
The power supply utilizes a very large UI type transformer with dual multi-tapped primaries to allow
alternate connections for world-wide voltage operation. Selection of the various voltage options is
made via a simple multi-position plug inside the unit. The UI type of transformer construction results
in very low stray magnetic leakage.
The transformer feeds a conventional split full-wave bridge rectifier system. Power supply capacitance
is 15,000 uF per rail. Further power supply de-coupling is provided for the input stage of each channel.
-9-
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ADDITIONAL INFORMATION
LOUDSPEAKER
LOAD IMPEDANCE
CONSIDERATIONS
The 9180/9270 Amplifier is suitable for use with a wide variety of loudspeaker types and load
impedances. Though not rated for impedances below 4 ohms, the amplifier is capable of driving
lower impedances. Operation at low impedances is limited by the thermal dissipation capacity of
the heatsinks and the airflow around the unit. Operation at very high power levels into low
impedances for extended periods may overheat the amplifier, but no damage will occur due to the
Thermal Protection System.
In the Mono Mode, some additional consideration is required when driving low impedances. When
a stereo amplifier is converted (bridged) into a single channel mono amplifier, each half of the
bridged amplifier “sees” only half of the loudspeaker’s load impedance. For example, when driving
an 8 ohm load in the Mono Mode, each channel is actually loaded to 4 ohms. Therefore, little
advantage is gained when attempting to drive 4 ohm loads (2 ohms per channel) in the Mono Mode,
because of the reduced power available at extremely low impedances. It is usually better to use
a stereo amplifier of higher power rating (rather than two bridged amplifiers of lower power) when
driving low impedances.
CHANGING LINE
VOLTAGE RATING
The 9180/9270 Amplifier is equipped with a simple means to adjust the AC line voltage rating for
100, 120, 220, or 240 volts AC, 50/60 Hz. The configuration is labelled above the power cord
connector. If the amplifier will be used in a location that requires a different line voltage, use the
Review the modification instructions before
following procedure to change the configuration.
attempting this procedure. If any doubts exist about one’s ability to change the line voltage, it is
advisable that the procedure be conducted by a qualified technician.
WARNING! UNPLUG THE UNIT FROM AC POWER BEFORE ATTEMPTING THIS PROCE-
DURE. FAILURE TO DO SO CAN RESULT IN SEVERE ELECTRICAL SHOCK.
Remove the top cover by removing the seven allen head screws (three on each side, one at
rear center).
1)
Using the diagram “Component Layout” as a guide, find the white Voltage Selector plug on
the printed circuit board located behind the front panel Power Switch. Note that this plug has
several alternate positions. Each position is labelled for where the end of the plug is to be
aligned for each appropriate voltage. Move this plug to the new desired position, making sure
that the plug is fully seated on the mating pins.
2)
Depending upon which new voltage is chosen, it may be necessary to change the AC line
fuse. Locate the clip-mounted Line Fuse adjacent to the Voltage Selector plug. Replace the
3)
slow-blow fuse
fuse with a new slow-blow fuse as follows:
9180:
9270:
100 and 120 VAC: 7 amp
220 and 240 VAC: 4 amp
100 and 120 VAC: 10 amp
220 and 240 VAC: 5 amp
Replace the cover.
4)
5)
Obtain a new voltage configuration label from the factory, and affix over the original markings
on the rear panel. Alternately, prepare a small self-adhesive label and indicate the new
voltage with permanent ink. Relabelling the unit is a vital safety requirement, particularly if
the amplifier is sold to a new owner.
The 9180/9270 Amplifier employs a single control per channel to set the bias operating point of the
output stage. This bias point is factory set, and normally should not require adjustment for the life
of the product. However, should improper bias be suspected, or if repairs have been made that
would require a readjustment of bias, the following procedure should be used. Review the
instructions before attempting this procedure. If any doubts exist about one’s ability to set the bias,
it is advisable that the procedure be conducted by a qualified technician.
ADJUSTlNG BIAS
-10-
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WARNING! UNPLUG THE UNIT FROM AC POWER BEFORE ATTEMPTING THIS PROCEDURE.
FAILURE TO DO SO CAN RESULT IN SEVERE ELECTRICAL SHOCK.
REQUIRED TEST EQUIPMENT: Milliammeter capable of measuring at least 300 mA.
Remove the top cover by removing the seven allen head screws (three on each side, one at rear
center).
1)
Using the diagram “Component Layout” as a guide, find the fuses labelled F1 and F2 for the left
channel, or F1 01 and F102 for the right channel.
2)
Working on one channel at a time, remove either one (and only one) of the fuses. Connect the
3)
milliammeter to the two fuse clips, and set the meter to a scale capable of measuring at least 300
mA.
WARNING! THE NEXT STEP OF THIS PROCEDURE CAN EXPOSE THE OPERATOR TO
UNINSULATED HIGH VOLTAGES. KEEP ALL BODY PARTS CLEAR OF THE INTERNAL
CIRCUITRY OF THE AMPLIFIER.
Apply power to the amplifier, and allow the unit to thermally stabilize for about three minutes. (If
using an analog meter, and the meter reads backwards, temporarily remove power and reverse
the meter leads.)
4)
Again referring to the diagram, locate the trimmer potentiometer labelled Pl for the left channel,
or P101 for the right channel. Using a small screwdriver, adjust the trimmer for a measured
current according to the following:
5)
9180: 200 mA
9270: 300 mA
Remove power from the amplifier. Wait about one minute for the power supply to discharge, and
remove the meter connections. Replace the fuse.
6)
Repeat steps #2,3, 4, 5 and 6 for the other channel.
Replace the covers.
7)
8)
The 9180/9270 Amplifier contains five internal fuses: one for AC line power, and four for DC power
supplies. These fuses should not generally blow unless a malfunction has occurred. These fuses
should be replaced only by a qualified technician, and only with the exact type(s) and rating of fuse(s)
originally supplied. If a fuse is replaced and blows again within a short time, check all output
connections for short circuits, or abnormally low speaker load impedances. If all connections and load
conditions appear to be correct, disconnect all power immediately and return for service.
GENERAL
TROUBLESHOOTING
HINTS
If all controls, fuses, cables, etc. seem to be functioning properly, a process of one-at-a-time component
substitution should be employed until the defective unit is identified. If only one channel is not
functioning properly, a one-at-a-time reversal of interconnect and speaker cables from left to right
should reveal the malfunctioning component.
GROUND
LOOPS
Ground loops are characterized by a low level hum or buzz in the system. Loops are caused by a
voltage potential difference between two points in a ground circuit, and aggravated when multiple paths
for a given circuit exist. Noise-free audio performance is dependent upon all grounds being at the same
potential, with a single path for each ground connection. Ground loops can exist in two forms: 1) loops
created in audio interconnects, and 2) loops created between earth grounded chassis.
Mounting components to a rack with metallic rails may introduce ground loops between associated
equipment, because the rails can introduce a second ground path. The extent of this problem will
depend on the grounding arrangements of associated equipment. Ground loops can occur in non-
rackmounted equipment, though it is less common.
If ground loops occur, and any other component in the system has a three wire grounded power cord,
the first step should be to use a ground adaptor (with the ground tab or wire of the adaptor not
DO NOT cut off the grounding pin on the plug!
connected) on the power cord plug of the preamplifier.
-11-
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It may be necessary to use additional adaptors on other grounded components if more than two
components are earth grounded. (In other words, only one earth ground per system should exist.)
Another potential source of multiple earth grounds is from coaxial antenna or cable service feeds
for FM or video sources, which usually are (and should be) earth grounded. The ground adaptor(s)
should cure this grounding problem as well.
WARNING: The use of ground adaptors (with the ground tab or wire of the adaptor
disconnected) will eliminate the safety feature of the grounded power cord. This safety
feature is intended to reduce the risk of electric shock should an internal fault in the
equipment result in an electrically “live” chassis. Therefore, this method of ground
isolation should be employed only when absolutely necessary, rather than as a general
practice. When using a ground adaptor for isolation, make sure that the power cord plug
is inserted into the receptacle in the same orientation as if no adaptor were present, to
maintain the same hot/neutral polarity.
SPECIAL NOTE ON VIDEO CABLE “GROUNDS”: As mentioned above, the ground conductor
of cable service and antenna feeds should be connected to earth ground. Often, however, due to
long feed lengths, especially in apartment distribution systems, this ground will be of poor quality
and could be a source of noise. This interference is usually characterized by a high frequency
noise, rather than a hum or a buzz. If such interference is experienced, a separate earth ground
connection should be made from the cable outlet nearest the audio/video equipment to a known
good earth ground.
If ground loops exist due to potential differences in the interconnects in rack mounted systems, then
it is advisable to isolate the preamplifier chassis from the rack rails. This may be accomplished by
sandwiching a thin sheet of insulating material (i.e., plastic washers or several layers of electrical
tape, etc.) between the rack and the preamplifier, and securing the unit with non-metallic (i.e.,
nylon, etc.) hardware. It may be necessary to insulate other components so that only one
component is directly connected to the rack rails.
CLEANING/
MAINTENANCE
If the faceplate should become soiled, it may be cleaned with a slightly damp, soft cloth and, if
necessary, a mild detergent. Do not use any abrasive cleaners or solvents. Unplug the power cord
before attempting any cleaning operations.
Except as specifically detailed in the owners manual, there are no user serviceable parts or
adjustments inside the 9180/9270 Amplifier, and all servicing should be referred to qualified,
authorized personnel.
PARTS LIST
Parts List
DESIGNATORS
99:
LEFT CHANNEL
RIGHT CHANNEL
COMMON PARTS
DESIGNATOR
VALUE
PART NUMBER
101-l 99:
201-299:
301-399:
R13,R113
R14,R114
R15,R115
R16,R116
R17,R117
R18,R118
R19,R119
R20,R120
R21 ,R121
R22,R122
R23,R123
R24,R124
R25,R125
R26,R126
R27,R127
R28,R128
R29,R129
R30,R130
R31 ,R131
2 6 7
2 6 7
1K
RMP/4-2670
RMP/4-2670
RMP/4-1001
RMP/4-1001
RMP/4-1000
RMP/4-1000
RMP/4-4752
RMP/4-5620
RMP/4-4750
RMP/4-0100
RMP/4-0475
RMP/4-0475
RMP/4-2210
RMP/4-4750
RMP/4-4750
RMP/4-4750
RMP/4-2210
RMP/4-2210
RMP/4-2210
RMP/4-4753
CHASSIS/POWER SUPPLY
DESIGNATOR
VALUE
PART NUMBER
1K
1 0 0
1 0 0
47.5K
5 6 2
4 7 5
1 0
4 7 . 5
4 7 . 5
2 2 1
4 7 5
4 7 5
4 7 5
221
ALL RESISTORS 114 WATT, 1% METAL FILM
(unless
specified
otherwise))
R1,R101
R2,R102
2.43K
2.43K
4 7 . 5
4 7 . 5
66.1
4 7 . 5
4 7 . 5
1K
RMP/4-2431
RMP/4-2431
R3,R103
R4,R104
R5,R105
R6,R106
R7,R107
R8,R108
R9,R109
R10,R110
RMP/4-0475
RMP/4-0475
RMP/4-0681
RMP/4-0475
RMP/4-0475
RMP/4-1001
RMPN-1001
RMP/4-6811
RMP/4-4752
1K
6.61K
47.5K
2.43K
2 2 1
2 2 1
4 7 5 K
R11,R111
R12,R112
RMP/4-2431
R32,R132
-12-
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PART NUMBER
DESIGNATOR
VALUE
DESIGNATOR
VALUE
PART NUMBER
R33,R133
R34,R134
R35,R135
R36,R136
R37,R137
R38,R138
R39,R139
R40,R140
R41,R141
R42,R142
R43,R143
R44,R144
R45,R145
R46,R146
R47,R147
R201
R 2 0 2
R 2 0 3
R 2 0 4
R 2 0 5
R 2 0 6
R 2 0 7
R 2 0 8
R 2 0 9
47.5K
33.2K
47.5K
1 0 0
1 0 0
1 0 0
1 0 0
1 5 K
RMP/4-4752
RMP/4-3322
RMP/4-4752
RMP/4-1000
RMP/4-1000
RMP/4-1000
RMP/4-1001
RMP/4-1502
RW5-100
RMP/4-1001
RMP/4-4754
RMP/4-1004
RMP/4-1004
RMP/4-1004
RMP/4-1004
RC/2-752
C21,C121
C22,C122
C201
C301
C302
0.01,
0.01,
Polypropylene
Polypropylene
CPP-103A
CPP-103A
CYV-103
CER-159ES
CER-159ES
CD-l 03/20
0.01, Polycarbonate
15000,
15000,
0.01, Ceramic
Electrolytic
Electrolytic
C303
C304
0.01, UL Approved
CD-103A
10,5W, Wirewound
1K
4.75M
1M
1M
1M
1M
7.5K, .5 W, Carbon
7.5K, .5 W, Carbon
100K
10K
18.2K
3 3 2 K
18.2K
3 3 2 K
1K
68.1K
33.2K
33.2K
47.5K
Q1 ,Q101
Q2,Q102
2SK163, Graded
2SK163, Graded
2SJ74,
SSH614T
SSH-614T
SSH-617DT
SSH-617DT
SSH613
SSH-613
SSH-708
SSH-708
SSH-708
SSH-613
SSH-616
SSH-612
SSH-611
SSH612
SSH-616
SSH-717T
SSH-717T (9270 Only)
SSH-717T
SSH-719T
SSH-719T (9270 Only)
SSH-719T
SSH-724
Graded
Graded
Q3,Q103
Q4,Q104
Q5,Q105
Q6,Q106
Q7,Q107
Q8,Q108
Q9,Q109
Q10,Q110
Q11,Q111
Q12,Q112
Q13,Q113
Q14,Q114
Q15,Q115
Q16,Q116
Q17,Q117
Q18,0118
Q19,0119
Q20,Q120
Q21,Q121
Q22,Q122
Q201
2SJ74,
2N5550
2N5550
2N5401
2N5401
2N5401
2N5550
2N5415
2N3440
2N2222A
2N3440
2N5415
2SK1057, Graded
2SK1057, Graded
2SK1057, Graded
2SJ161,
2SJ161,
2SJ161,
2N7000
MPSA56
RC/2-752
RMP/4-1003
RMP/4-1002
RMP/4-1822
RMP/4-3323
RMP/4-1822
RMP/4-3323
RMP/4-1001
R 2 1 0
R211
R 2 1 2
R 2 1 3
RMP/4-6811
RMP/4-3322
RMP/4-3322
RMP/4-4752
Graded
Graded
Graded
VR1 ,VR101
P1,P101
50K
Volume
RVH-503G
RV-102
SS-1O1A
1
K
Trim
U1
LM393
SS-207
ALL CAPACITORS IN MICROFARADS
(unless specified otherwise)
TS1
T S 2
T R M
Thermal Sensor
Thermal Sensor
Inrush Limitor
SS-215
SS-215
SSH-618
PART NUMBER
DESIGNATOR
C1,C101
VALUE
330p
330p, Polystyrene
10p, Mica
CR1 ,CR101
CR2,CR102
CR3,CR103
CR4,CR104
CR5,CR105
CR6,CR106
CR7,CR107
C R 2 0 1
FDH400
FDH400
1N4148
SS-163
SS-163
SS-162
SS-212
SS-212
S S - 1 6 2
S S - 1 6 2
SS-212
SS-212
SS-162
,
Polypropylene CPP-331 (9180)
CPS-331 (9270)
CM-100 (9180)
CPS-080 (9270)
CPC-104 (9180)
CPP-104MC (9270)
CERNP-227
1
1
N5245B,15V
N5245B,15V
C2,C102
8p,
Polystyrene
1N4148
1N4148
C3,C103
0.1, Polycarbonate
0.1, Polypropylene
220, NP Electrolytic
1
1
N52458,15V
N52458,15V
C4,C104
C5,C105
CR202
CR203
0.001,
Polypropylene CPP-102 (9180)
0.001, Polystyrene CPS-102 (9270)
0.001, Polypropylene CPP-102 (9180)
1N4148
C6,C106
BR301
Diode Bridge
SSH-609
0.001, Polystyrene
220p, Polypropylene
220p, Polystyrene
CPS-102 (9270)
CPP-221 (9180)
CPS-221 (9270)
CPC-104 (9180)
CPP-104MC (9270)
CPC-104 (9180)
CPP-104MC (9270)
CPC-104 (9180)
CPP-104MC (9270)
CER-107D
RCA Jack, White
RCA Jack, Red
5-Way Binding Post
AC Voltage Selector
Header:
Housing:
Pins:
IEC Connector
Stereo/Mono Switch
Power Switch
CCH-232
CCH-231
CC-568
J1
J101
J2,J102
J201
C7,C107
C8,C108
0.1,
0.1,
0.1,
0.1,
0.1,
0.1,
Polycarbonate
Polypropylene
Polycarbonate
Polypropylene
Polycarbonate
Polypropylene
CCH-245
CCH-246
CCH-247
CCH-233
SWH-510
SWH-152G (Gray)
SWH-152B (Black)
C9,C109
C10,C110
J301
S W 1
S301
C11,C111
C12,C112
C13,C113
100, Electrolytic
100, Electrolytic
CER-107D
0.1,
0.1,
0.1,
0.1,
Polycarbonate
Polypropylene
Polycarbonate
Polypropylene
CPC-104 (9180)
CPP-104MC (9270)
CPC-104 (9180)
CPP-104MC (9270)
CPP-331 (9180)
CPS-331 (9270)
CPC-104 (9180)
CPP-104MC (9270)
T301
Power Xformer
TT-9180
TT-9270
(9180)
(9270)
C14,C114
C15,C115
C16,C116
330p, Polypropylene
330p, Polystyrene
F1 ,F101
5
7
5
7
7
4
A m p
A m p
A m p
A m p
Amp Slo-Blo
Amp Slo-Blo
FS-005 (9180)
FS-007 (9270)
FS-005 (9180)
FS-007 (9270)
FS-007SB
FS-004SB
FS-010SB
FS-005SB
0.1,
0.1,
Polycarbonate
Polypropylene
F2,F102
C17,C117
C18,C118
C19,C119
C20,C120
Not Used
Not Used
Not Used
0.47, Polycarbonate
LINE FUSE
(9180 100-120V)
(9180 220-240V)
(9270 100-120V)
(9270 220-24OV)
10 Amp Slo-Blo
Amp Slo-Blo
C W - 4 7 4
5
- 1 3 -
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LEFT/MONO
LEFT/MONO
INPUT
OUTPUT
MONO/STEREO
SWITCH
RIGHT
INPUT
THERMAL
PROTECTION
SYSTEM
THERMAL
SENSORS
TURN ON/OFF
SYSTEM
9180
9270 FUNCTIONAL BLOCK DIAGRAM
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(SEE
CHART)
,
6
(SEE
CHART)
SCHEMATIC DIAGRAM
RMSED 1
1 CR201
1
68.1 K
0.01
TO R.
CH.
TO L.
CH.
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NOTE!3 UNLESS SPECIFIED OTHERWISE
1. ALL RESISTORS IN OHMS
2. ALL CAPACITORS IN MICROFARADS
3. COUPONENT DESIGNATORS:
l-99: LEFT CHANNEL
101-199:
RIGHT CHANNEL
201-299: COMMON PARTS
J101
RIGHT INPUT
301-399:
CHASSIS/POWER SUPPLY
4. Ql7/Q117 & Q20/Q120 NOT PRESENT ON
SERIES 9180
5. LEFT
CHANNEL ONLY SHOWN
6. STEREO/MONO SWITCH SHOWN IN STEREO
7. VOLTAGE SELECTOR SHOWN IN 1OOV POSITION
R34
6. Ql/QlOl
&
Q2/Q102 USE TWO 2SK163 SINGLE JFET'S
OR ONE 2SK389 DUAL JFET
9. Q3/Q103 & Q4/Q104 USE TWO 2SJ74 SINGLE JFET'S
OR ONE 251109 DUAL JFET
1
0
.
R44/R144. R45/R145.
R46/R146.
R47/R147.
C21/C121.
C22/C122
2SK389
ARE PRESENT ONLY WHEN USING DUAL JFET’S
2SJ109 (FOR S UBS TRATE BIAS ING)
&
11. C17/C117. C18/C118
C19/C119
NOT USED
FUSE CHART
R35
SCHEMATIC DIAGRAM
1
, NEUTRAL
I
+HV
-
-
-
- HV
I
JJ
I
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SERVICE POLICY AND LIMITED WARRANTY
If you encounter any difficulty or have any question concerning your 9180/9270 Amplifier, please
call our Customer Service Department weekdays, 8 a.m. to 3:30 p.m., Mountain Standard Time,
at 602-967-3565.
Should you have any doubts as to whether the amplifier is malfunctioning and requires service,
please call us before sending in for repair. All units being returned (regardless of warranty status)
must receive a Return Authorization (RA) number. In addition, we can offer troubleshooting
assistance that may simplify or even eliminate the need for factory service.
The Hafler 9180/9270 Amplifier is warranted to the original owner (non-transferrable) for seven
years from the date of purchase, including parts, labor, and return shipping costs within the
Continental United States, Alaska, and Hawaii. This warranty applies only to products sold in the
United States Of America.
For warranties outside the U.S.A., please contact your local agent.
It is the owner’s responsibility to pay shipping (preferably United Parcel Service, UPS) to the
factory: collect shipments will not be accepted. Units under warranty should be accompanied by
acopyof the dated Bill Of Sale. Use the original carton and all packing material, with the RA number
clearly marked on the outside of the package. Be sure to include
a
return address, the RA number,
a daytime telephone number, and a brief description of the difficulty, including whether it occurs
continuously or intermittently.
This warranty gives you specific legal rights. You may also have other rights which vary from state
to state.
-19-
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