Hafler DH 110 Preamp Manual
THE
PREAMPLIFIER
DH-110
INSTRUCTIONS
for ASSEMBLY
and OPERATION
LM132
Please refer to this serial
number in all communications
$3.00
regarding this equipment.
THE DAVID HAFLER COMPANY
5910 Crescent Boulevard, Pennsauken, New Jersey 08109
DH-110
�SPECIFICATIONS
The numbers in parentheses refer to the paragraph in the IHF specifications manual which defines the test procedure.
PHONO PREAMP SECTION
Rated Output: 3 8 Hz-105 kHz
Maximum Output (3.5): 12 Vrms, 20 Hz-20 kHz at recording output
Total Harmonic Distortion: Less than 0.0006% @ 1 kHz, 3 Vrms
Frequency Response (3.13): +0, -0.25 dB, 20 Hz-20 kHz
RIAA Equalization Accuracy: +0, -0.1 dB, 30 Hz-15 kHz
Full Power Bandwidth: -6 dB, 4 Hz-210 kHz
Sensitivity (3.7): 12.5 millivolts
Maximum Input Signal @ 1 kHz (3.8): 300 millivolts; [3 V @ 20 kHz]
Gain: 34 dB @ 1 kHz
Input Impedance: 47,000 ohms in parallel with 30 pF; user adjustable.
Plug-in capacitors are installed to increase this
to 150 pF on Phono 1; 250 pF on Phono 2
Signal to Noise, weighted (3.12): 87 dB
Slew Rate: 12 volts per microsecond
LINE AMPLIFIER SECTION
Rated Output: 3 Vrms, 4 Hz-210 kHz
Maximum Output (3.5): 14 Vrms, 20 Hz-20 kHz
Total Harmonic Distortion (3.4): Less than 0.001%, 20 Hz-20 kHz
Frequency Response (3.13): +0, -0.1 dB, 20 Hz-20 kHz
Full Power Bandwidth: -6 dB, 2 Hz-420 kHz
Sensitivity (3.7): 50 millivolts
Maximum Input Signal @ 1 kHz (3.8): 14 Vrms; volume control @ -20 dB
Gain: 20 dB Ä… 1 d B
Input Impedance: Greater than 25,000 ohms
Signal to Noise, weighted (3.12): 90 dB
Slew Rate: 12 volts per microsecond
Rise Time: 2.5 microseconds maximum, Phono in / Line out, 10 Vp-p,
1 kHz square wave; load is 10,000 ohms in parallel with 10 nF
Crosstalk (3.14): down 72 dB, any input to any output
Separation (4.2): greater than 82 dB @ 1 kHz; greater than 52 dB @ 20 kHz
Gain Tracking Error (4.4): less than 0.5 dB
Maximum Output Noise: less than 350 microvolts, wideband
less than 95 microvolts, � A� weighted
[with 1 Kohm input termination, volume full CW]
Bass Control: 217 dB @ 20 Hz, moving inflection, variable turnover
Treble Control: Ä…17 dB @ 20 kHz, shelving @ 5 kHz, fixed turnover
Filter Response: -3 dB @ 25 Hz; -6 dB @ 15 Hz; -12 dB @ 8.2 Hz; -25 dB @ 3 Hz
Filter Cutoff (3.13.2.2.1; 3.13.2.2.2): 25 Hz; -12 dB/octave
GENERAL SPECIFICATIONS
Semiconductors: 30 transistors, 3 ICs, 12 diodes, 2 LEDs
Inputs: 2 Phono, Tuner, Compact Disc or Video, 2 Tape recorders, EPL
Outputs: 2 Tape (buffered), 2 Line, EPL, Headphone Jack
Controls: Volume, Balance, Bass, Treble, Input Selector, Phono l/2 Selector,
Monitor Selector, Mono-Stereo, Filter, External Processor Loop,
Tone Control Engage, Power
Intermodulation Distortion: Both SMPTE and CCIF IMD at operating
levels from phono input to line output are below the
residual of currently available instrumentation
AC Supply Voltage: 100-130 and 200-260 VAC, 50/60 Hz
Power Consumption: 3.5 watts
AC Convenience Outlets: 3 switched, 5 amp continuous, 72 amp surge
1 unswitched, 5 amp continuous
Size: 17� wide x 3� high x 8½� deep
19� rack mounting accessories included
Shipping Weight: 12.5 lbs.
Net Weight: 10 lbs.
2
© Copyright 1985. All rights reserved.
�INTRODUCTION
Precise interchannel balance at all frequencies is main-
Your preamplifier is the control center of your music
system, acting as an interface between the sound tained with close tolerance components, and RIAA phono
equalization is engineered to very narrow limits, maintain-
sources-record players, tape recorders, FM and Video
tuners-and the power amplifier which drives the ing accurate phase relationships and correct spatial
perspectives, as well as exceptional unit-to-unit consis-
loudspeakers. As the focal point of your system, it should
be attractive and easy to use, versatile and yet functionally tency. The tone controls, which can provide contouring of
response for individual needs when switched in, are nor-
unobtrusive. It should contribute a minimum of noise or
distortion while providing signal amplification, control of mally isolated from the circuit for ruler-flat response.
the signal level, and applicable modification of the fre-
quency response. The components in the DH-110 have been selected for
their superb audio performance as well as for their reliabil-
ity. They have been incorporated in the unique Hafler fully
The DH-110 achieves all these objectives with great
complementary symmetry push-pull circuit in a carefully
versatility, providing for two record players with magnetic
designed circuit board layout which reduces crosstalk and
cartridges, two tape recorders, a tuner, and an additional stereo
maintains separation for a synergistic audio result that
input for a compact (digital audio) disc player or video audio. It
defies comparison, regardless of cost.
also includes inputs and outputs for an external signal processor
such as a graphic equalizer, time delay device, or noise
Those who have chosen to build the kit will find that its
reduction unit. The performance of the DH-110 is exemplary,
step by step instructions will ensure a properly working
and its assembly from an array of discrete components of
unit even for the novice builder. A substantial amount of
exceptional quality should ensure reliability and longevity of its
preassembly has enabled us to check out each kit in nearly
capabilities.
every aspect of performance, and makes the DH-110 a par-
ticularly fast, easy and enjoyable construction project,
Exceedingly low noise and distortion is a hallmark of the which you will likely complete in one evening.
DH-110. Noise is essentially inaudible in the absence of a
signal, and distortion of all types, both steady state and We suggest that you read the installation and operation
sections of this manual carefully, even though much may
transient, is at or below the threshold of the finest mea-
surement capabilities. These excellent characteristics are be familiar to you. There are some subtle and significant
points which may be new, and their proper appreciation
maintained far outside the customary 20 Hz to 20 kHz
band, and signals well beyond that are handled without the will enable maximum satisfaction with your DH-110. We
need to restrict bandwidth. wish you to have the very best in sound.
CONTENTS
Additional Information . . . . . . . . . . . . . . . . . . .16
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . Page 4
Functional Block Diagram . . . . . . . . . . . . . . . .16
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
. . . . . . . . . . . . . . . . . . . . .
Component Values .19
Assembly Instructions. . . . . . . . . . . . . . . . . . . . .7
. . . . . . . . . . . . . . . . . . . . . .20
. . . . . . . . . . . . . . . . . . . . . . . . . . .9 Schematic Diagram
Building the Kit
Kit Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
. . . . . . . . . . . . . . . . . . . . . . . . .12
PC-14 Diagrams
. . . . . . . . . . . . . . . . . . . . . . .15 Service and Warranty . . . . . . . . . . . . . . . . . . . .23
If a Problem Arises
. . . . . . . . . . . . . . . . . . . . .
.15 Pictorial Diagram Insert
Overseas AC Line Connections . . . . . . . . . .
3
�The Additional Information section of this manual de-
The DH-110 is provided with accessory Rack Mount end
caps in addition to the standard end caps installed on the tails the determination of the loading capacitor for a
specified cartridge load. It also describes how the resistive
unit. These accessory caps extend the width of the front
panel to that of a standard 19� rack, with appropriate load of the phono inputs may be changed, if needed, from
the standard 47K ohms.
mounting holes. Installation instructions are detailed later
in this manual under Additional Information.
Moving coil design cartridges often require an auxiliary
step-up transformer or pre-preamplifier (head amplifier)
POWER CONNECTIONS
As assembled, units are normally wired for 120 VAC, because of their low output signal. The DH-110 has provi-
50-60 Hz, as in the USA, unless they are specially iden- sion for internal addition of an accessory Hafler pre-
tified on the carton. In the Additional Information section preamplifer which you or your dealer can install at any
you will find diagrams of alternate wiring of the power time. This enables the Phono 1 input to accommodate such
cartridges directly. The Additional Information describes
transformer to conform to other line voltages.
its installation.
The power regulation of the DH-110 will provide full per-
formance with line voltages which may vary substantially Adjacent to the Phono 1 input sockets are two Ground
from the standard. Units wired for 120 volts, for instance, terminals on the back panel. These thumbscrews provide
for connection of separate ground wires often provided on
will work properly with line voltages between 95 and 130
volts. turntables, or as part of their audio cables. This � chassis
ground� may sometimes reduce the hum level of a system
when it is connected to an earth ground, such as a cold
Accessory AC outlets are provided on the back panel for
other equipment. One unswitched outlet is provided for a water pipe, or the ground wire of 3-wire house wiring.
turntable or tape recorder whose mechanical system may However, the need for such connection varies with indi-
vidual situations. After the system is operative, using a
require disengagement through its own power switch.
Most units, including power amplifiers, tuners, and many phono source, experiment with and without an earth
ground to determine which provides the lowest hum, and
tape recorders and record players, may be connected to
the switched outlets for convenient remote switching from use that.
the preamp� s front panel. The DH-110 power switch has
been tested to provide adequate capacity for any Hafler
IMPUTS-Tuner, CD/Video
power amplifier and typical related equipment. You should
These are high level (line-50 millivolts or more) signals
heed the maximum power rating printed on the back panel
from FM, AM or TV tuners, or compact digital audio disc,
of the unit.
video disc, or VCR players. These inputs are grounded at the
selector switch when they are not chosen for listening. The input
INPUTS-Magnetic Phono
impedance is approximately 33K ohms.
There are two pairs of phono inputs, identified as Phono
1 and Phono 2. These are independent, and thus they may
have different capacitive termination for differing car-
INPUTS-Tape 1, Tape 2
tridge requirements. As assembled, Phono 1 is provided
These are at line level and impedance. They connect to
with a compensation capacitor of 120 picofarads, and
Tape Play outputs on the tape deck. They are not grounded
Phono 2 is provided with 220 picofarads. One of these val-
when unused, since they can be connected by either the
ues will accommodate most � Moving magnet� cartridges.
main selector switch or the Tape Monitor switch. They are
These have output levels intended for normal phono in- terminated with 1 megohm resistors to avoid a possible
puts (0.5 millivolts per centimeter or higher) and are the
switching transient.
most popular. Some high output � moving coil� design car-
tridges are not sensitive to capacitive loading, so they may
be used with either input. RECORDING OUTPUTS
These connect to the Line Inputs of tape decks. The two
Though some phono cartridges are comparatively free pairs of outputs are wired in parallel. Thus two tape recor-
of loading sensitivity, if the cartridge manufacturer ders receive identical signals. These outputs are buffered
specifies the proper load capacitance (which is the sum of with a series resistor, and have an output impedance of
the preamp� s internal capacitance, and the cables you use, 1.5K ohms. To provide full specification performance, the
as well as the above described capacitor), the most accu- total tape recorder load should not be lower than 10K ohms
rate sound will be obtained by following that recommenda- (i.e. two 20k ohm recorder inputs on each channel).
tion. If you have chosen the DH-110 for its sonic attributes,
you will be more likely than most to be aware of these dif- Because it is possible that a preamplifier� s overall per-
formance may be adversely affected by rectification ef-
ferences, and will want proper cartridge termination.
4
�fects that can result from unpowered electronic circuits in
which is otherwise a possibility. We recommend that you
the tape decks when they are connected to the Recording
turn off power amplifiers before connecting headphones,
Outputs, it is recommended that tape recorders be
or that they be plugged in before the system is switched on,
switched on when the preamplifier is in use. This is a
as a precaution.
commonly overlooked cause of less-than-ideal
The Direct outputs provide conventional signal levels
preamplifier performance.
independent of the headphone circuit. If headphones are
plugged in, the level of the Direct output will be greatly
Signals at these outputs are at line input level (phono
reduced. These outputs should not be used when head-
signals are first amplified and equalized). These outputs
phone use is anticipated.
are unaffected by external processing circuits, or by the
DH-110� s Mono, Filter, Tone or Volume controls. Only sig-
The performance specifications will be met so long as
nals indicated by the Selector switch are available, includ-
the input impedance of the power amplifier is 10K ohms or
ing the other tape input, so tape copying is provided using
higher, and the cable capacitance is less than 1Onf. This is
either recorder as a source.
no problem with typical interconnecting cables up to 10
feet. If you are planning to use very long cables between
preamp and power amplifier, special low capacitance cable
LINE OUTPUTS
can be obtained.
Two pairs of outputs are provided for your power
amplifier connection. The set labelled � Via Phones� is
EXTERNAL PROCESSING LOOP
suggested for those who regularly listen through head- � Send� is an output at line level for the purpose of driving
phones as an alternative. These are wired so that when
an external signal processor such as an equalizer, time
headphones are plugged in, the signal is disconnected from
delay, or noise reduction unit. Like the recording outputs,
the power amplifier. Two purposes are thus served. Since
the load impedance should not be less than 10K ohms. The
many headphones require fairly high volume control set-
EPL � Return� input impedance is 33K ohms, and should
tings, you avoid inadvertent high signal levels to your
also be at line level. The EPL Return can also function as
speakers. And a power amplifier which is turned off can-
an additional high level input, switched from the front
not degrade the quality of signal to the headphones-
panel.
OPERATION
When you turn on the DH-110, power is also applied to
duplicated by selecting the playback tape recorder on the
the switched AC outlets on the back panel. One of the red
Selector switch, and recording on the second machine.
LEDs on the front panel will light, indicating that the
PHONO AMPLIFIER
preamp is functioning. Typically, it will be the left-most
The button in the lower left of the front panel selects
LED, indicating that the Selector switch is determining
either Phono 1 (in the OUT position) or Phono 2. The
the signal source. At turn-off, it is normal for the LED to
switch may be operated to compare two cartridges while
fade slowly as the operating voltages decline.
music is playing, but if them is no cartridge connected to
one input, noise or RF interference may cause a small au-
DELAYED TURN-ON
dible transient. The phono signal is accurately RIAA
An internal muting circuit prevents the voltage tran-
equalized and amplified 34dB (at 1kHz), then passed to the
sients which may occur at turn-on or turn-off from causing
Selector switch at line level.
annoying noises, blown fuses or damaged loudspeakers.
MONITOR SWITCH
At turn-on, the Line Outputs (but not the Recording
To facilitate tape recording with tape decks which pro-
Outputs or EPL Send output) will be held near ground po-
vide an independent monitoring facility, the DH-110 pro-
tential for a few seconds until the internal voltages have
vides this second selection function. When it is OFF, the
stabilized, and the unit is ready for operation. Only a faint
regular Selector switch determines what signals are heard.
output can be heard during this time.
When the Monitor switch is turned to either Tape 1 or Tape
2, the line amplifier is quietly disconnected from the signal
At turn-off, whether by operating the preamp� s power
being recorded, and is connected to the tape playback in-
switch, or as a result of external AC failure (a � brown-out� ,
stead. This enables direct comparison of the signal source
pulled plug, or blown house fuse), the line output will be
with the taped replica, without affecting the recording pro-
instantaneously lowered. Following power interruption,
cess. Tape decks which do not provide separate record and
the muting circuit will initiate a few seconds delay before
playback heads are not able to utilize this comparison.
allowing full signal at the line outputs.
Note: Do not turn the Monitor switch to Tape 1 if the
SIGNAL SELECTION Selector is also set to Tape 1. Likewise avoid simultaneous
Tape 2 settings on both switches. Feedback will occur, and
Your choice of signal sources is usually indicated by the
Selector Switch, identified by the adjacent lighted LED.
there is a possibility of damage.
This switch passes line level signals direct to the Record-
When the Monitor switch is not in the OFF position, the
ing Outputs and to the EPL Send output as well as to the
LED at the Monitor switch will light, in place of the Selec-
Mono switch and subsequent line amp controls. Either or
tor LED, reminding you that tape playback has been
both tape recorders may record this source. Tapes may be
selected.
5
�The following controls affect all signals which are will be heard with the control fully counterclockwise, and
only the Right signal at the other extreme.
heard through speakers or headphones. They have
no effect on the signals to the recording outputs.
The ideal situation would find symmetry in room acous-
tics and in the electronics, but this realization is rare.
MONO SWITCH
Stereo reproduction is, at best, a splendid illusion, and the
When this button is IN, left and right channel informa-
function of the Balance control is to optimize this illusion
tion is combined, and the composite signal is fed to both
in the listening space. Sound wave reflections from walls,
left and right outputs. In this mode the sound image should
furniture and people can unbalance the stereo � stage� . With
appear to be centrally located between the loudspeakers.
judicious application of the balance control, much of the
Critical listeners sometimes choose the mono mode for
attendant distortion of stereo imaging can be overcome.
system evaluation, for it enables you to isolate system re-
With the preamplifier in the Mono mode, it will be easier to
sponse from the complexity of stereo effects. This switch
use the Balance control to centrally position the apparent
is also useful when listening to monophonic program mate-
sound source. This mono setting can then serve as a useful
rial. It cancels the unwanted vertical phonograph modula-
reference point, though the appropriate balance setting
tions which are heard as noise from monaural records.
may vary from recording to recording in the stereo mode.
FILTER SWITCH
Our point is that Balance and Tone controls are intended
This is a low frequency cutoff to remove much of the
to facilitate the most satisfying sound to the listener; it is
signal below 25 Hz, such as noise, turntable rumble, or
appropriate that they be used to this end.
loudspeaker-turntable feedback. Even in cases where the
speakers may have little response at these frequencies,
this filter can be useful. Very low frequencies can modulate BASS and TREBLE CONTROLS
audible midband signals, so eliminating this interference The Tone Switch must be IN for these controls to be ef-
can improve overall clarity. fective. At full rotation, each control provides about 17 dB
of boost (clockwise), or cut (counterclockwise) at the fre-
Note: The Filter button should be OUT when the DH-110 quency extremes from the center � flat� (detent) position.
is turned ON to avoid a switching transient during the first
minute of operation. If it is IN at turn-on, wait one minute The Bass control has a variable inflection, or � hinge�
before releasing it. point so that only the very low frequencies are affected by
small amounts of rotation either side of center. This facili-
EPL SWITCH tates low frequency corrections without noticeably alter-
This is the External Processor Loop. Engaging this
ing the musical balance, but speakers with diminished low
switch enables a signal processing device to be inserted in frequency response will not reflect small angular move-
the preamplifier signal path. Such devices include equaliz-
ments from the detent. As the control is turned further,
ers, time delays or ambience simulators, expanders, com- frequencies closer to 500 Hz are affected, so the effect is
pressors, and noise reduction systems. Since the switch more apparent.
permits bypassing the processor loop, an unpowered de-
vice in the EPL circuit will not deteriorate the DH-110 per- The Treble control has a fixed � hinge� point at 1kHz and
formance, as might be the case with switched-off tape has a � shelving� action above 5kHz. This affords proper
decks in the Record Outputs. The EPL switch can also correction without irritation from excessive boost at the
function as an additional input selection. extreme.
TONE SWITCH
VOLUME CONTROL
Until this button is depressed, all tone control circuitry
This step action control was selected for its very accu-
is completely removed from the signal path. Activating
rate tracking between channels, and for its low contact dis-
this button may cause a slight change in the tonal balance
tortion. Clockwise from the 12 o� clock position it increases
even when both Bass and Treble controls are in their me-
in increments of roughly 1 dB. From 12 o� clock coun-
dian (detent) position. Potentiometer tolerances preclude
terclockwise it progresses in increasing increments to full
coincident mechanical and electrical centering. The tone
attenuation.
control circuitry limits, to an extent, the total bandpass of
the DH-110. HEADPHONE JACK
A 3-circuit shorting jack is connected so that the tip is
Operation of the Tone button will be silent if it is depressed the left channel, in series with one set of line outputs, so
in a natural, deliberate manner. Rapid switching may gen- that the power amplifier is automatically disconnected
erate small transient pulses. when the headphones are plugged in. We recommend that
you turn off the power amplifier before you connect head-
BALANCE CONTROL phones, or that they be plugged in before the preamplifier
This adjusts the proportion of left and right channel sig-
is turned on, to guard against needless transients. Be sure
nals to the Line outputs. In its detented center position the the volume is turned down before headphones are discon-
channels will be matched to Ä…0.1 dB. Only the Left signal
nected.
�because he may not wait long enough for it to reach operat-
There are three basic rules for success in electronic kit
ing temperature each time it is switched on, poor solder
building:
connections are more likely. Pencil irons are much lighter
1: Read the instructions carefully, and follow them in or-
and easier to use, and there is no waiting time when solder
der.
connections follow in sequence, as in kit building. Make
2. Make secure solder connections which are bright and
sure you have a holder for it, though, and always unplug it
smooth. when you take a break.
3. Check your work carefully after each step.
Proper Soldering
The DH-110 preamplifier is a versatile component with
There are four steps to make a good solder connection:
sophisticated circuitry which has been made remarkably
easy to build by individuals with many years of experience
1. Make a good mechanical connection to hold the wire in
in the design and engineering of the finest performing
position while heat and solder is applied.
audio kits, and in the preparation of their manuals.
2 . Heat the junction of the wire and lug, or eyelet, with the
Kit building should be fun, and we am certain you will
bright, shiny tip of the iron.
find this to be so. Fatigue increases the risk of error, so
3. After heating for a couple of seconds, apply solder to
take a break rather than push to early completion. There
the junction. It should melt immediately and flow
are relatively few separate components in this design, to
smoothly around both surfaces.
make it easy to pack everything away, if need be.
4. Allow the connection to cool undisturbed.
Your work area should have good lighting and the proper
tools. The tools should include: Remember that the connection is made by the solder,
not by mechanically attaching the wire to the terminal.
1. A 40 to 60 watt pencil soldering iron with a 3/16" or smal- Usually the wire is looped through the lug and crimped in
ler tip which reaches 700°F place, but some prefer to just place it through the hole and
rely on the stiffness of the wire to hold it while soldering.
2. 60/40 (60% tin) ROSIN CORE solder, l/16� diameter or
Eyelet connections, of course, are handled this way.
smaller.
3. A damp sponge or cloth to wipe the hot tip of the iron.
Good solder connections are essential for trouble-free,
noise-free operation. A good solder joint does not require
4. A wire stripping tool for removing insulation. This can
much solder around the conductors. Never � butter� par-
be a single-edge razor blade, but inexpensive stripping
tially melted solder on the joint, as it is useless. A good
tools are safer, faster and easier.
connection looks smooth and bright because the solder
5. A medium-blade screwdriver (about l/4� wide).
flows into every crevice when the parts am hot enough.
The iron must have a bright, shiny tip to transfer heat eas-
6. Needle-nose pliers (a long, narrow tip).
ily to the junction. That� s why the damp sponge should be
7. Diagonal or side-cutting small pliers.
used frequently to wipe the tip, and occasionally you must
add a small amount of solder to the tip, too. If a connection
8. Large � gas� or � slip-joint� pliers.
is difficult to heat, � wet� the tip with a small blob of solder
9. A l/4� � Spin-tite� nut driver may be helpful, but is not
to provide a bigger contact surface to the joint. Once the
necessary.
solder flows around the conductors, any movement must
A soldering � gun� is not recommended. The unfamiliar be avoided for a few seconds to allow a good bond. When
cool, check the connection by wiggling the wire. If in
user is more likely to damage the etched circuit boards
doubt, or if the connection is not shiny, m-heat the joint.
with its higher heat potential and unbalanced weight. Also,
�Wiring the Kit
Excess solder may be removed from a connection by heat-
ing it and allowing the solder to flow onto the iron, which is
If any components are unfamiliar to you, checking the
then wiped on the sponge.
pictorial diagram should quickly identify them. Or, the
quantities, and the process of elimination as you check the
ALL SOLDER USED MUST BE ROSIN CORE
parts list, will help. The pictorial diagram is necessarily
distorted to some extent for clarity, so that you can trace
Never use acid core solder or any separate flux in elec-
every wire in a single overall view for verification as you
tronic work. Silver solder is also not suitable. If in doubt
work.
about unmarked solder, always obtain a fresh supply of
rosin core solder. We recommend 60/40 for easiest use. Do
To � prepare� a wire means to cut the designated length
not confuse it with 40/60, which is harder to melt.
from the length of that color, and strip about l/4� of insula-
tion from each end. The wire supplied in the kit is #18 and
The general procedure is to use a hot iron for a short time
#22, so you can set adjustable wire-strippers accordingly.
to heat a connection, then add solder with the iron still in
The transformer leads are #18, and the line cord is #16. Be
contact. Remove the solderonce it flows, and then remove
careful that you do not nick the wire when you strip it (that
the iron. A cooler iron applied for a longer time is more
can happen more easily if you do not use wire strippers) for
likely to damage components, or lift the copper circuit pat-
that weakens it. The wire supplied in this kit is � bonded
tern from the boards. A break in the etched circuit can be
stranded,� which provides exceptional flexibility with re-
mended by simply soldering a small piece of wire across it.
sistance to breakage for easier use.
Do not allow much build-up of solder on the tip of the iron,
or it may fall onto adjacent circuitry and cause a short cir-
Whenever a connection is to be soldered, the instruc-
cuit.
tions will so state, or indicate by the symbol (S). If more
than one wire is to be soldered to the same point, they will
When soldering to an eyelet or hole on the board, insert
be indicated by (S-2), (S-3), etc. If soldering is not called
the wire from the components side, and apply the iron to
for, other connections have yet to be made to that termi-
the bottom, leaving some bare wire exposed so that you
nal. They would be more difficult if the connection was al-
can see that the eyelet is then filled with solder for a secure
ready soldered. Every connection in the kit will be sol-
bond. A round wooden toothpick is suggested so that you
dered when it is complete. After soldering a connection, it
can heat and clear an eyelet of solder if it hinders your in-
is best to clip off any excess lead length to minimize the
serting the wire. Some builders prefer to clear every eyelet
possibility of a short circuit, and for neatness.
first with a touch of the iron and toothpick. Others connect
the lead by bringing it up to the center of the eyelet on top
Be sure that uninsulated wires cannot touch adjacent
of the board, applying the iron from the bottom of the
terminals or the chassis metalwork.
board, and pushing the lead in as the solder in the eyelet
melts. If the wire has first been � tinned,� usually no addi-
When the instructions call for twisting two or three
tional solder is necessary, but it is a good practice to push
wires together, the length of wire indicated anticipates a
the wire through, and then back it up a bit, to be sure solder
fairly tight, uniform twist by hand, of three full turns every
fills the eyelet. On the bottom of the board, make certain a
two inches. If you find the wires too short, loosening the
bright, shiny flow is evident from the wire onto the circuit
twist will gain some needed length.
pattern on the board.
Take the time to be accurate and neat, and you can be
� Tinning� refers to the process of applying a light coat-
sure that your completed preamplifier will meet the per-
ing of solder to the bared wire end. This keeps all the
formance of a factory assembled unit, and can continue to
strands secured, and also makes a good connection easier.
perform properly for years to come. Check your work, and
Simply touch the wire with the iron for a couple seconds,
make sure the entire step has been completed before plac-
and apply solder. Allow the excess to flow away onto the
ing a check mark in the space provided, and continuing on
iron. When properly done, the wire is uniformly bright,
to the next step.
and no larger than before. The hookup wire supplied with
this kit does not normally need tinning, for it is pre-tinned.
�BUILDING THE KIT
6 Select the power switch and two #4 screws. Install
Partial mechanical assembly of the kit provides protec-
the switch above the headphone jack so that the
tion for major components during shipment. Most of the
body of the switch is offset to the outer edge of the
hardware thus used is included in the quantities listed in
panel.
the parts list. The exception is that used to install the rear
mounting bracket on the PC-14, as this is considered an in-
7 Select the main PC-14 circuit board assembly, with
tegral assembly. Only the two screws securing the bracket
the fuse in place, and the rear bracket installed, and
to the side pieces need be removed, along with the
a rubber grommet in the bracket. Select the 6 larger
hardware securing the front sub-panel. Dismount the
nuts and washers for securing the controls to the
power transformer and remove the side pieces.
front sub-panel. The two largest sets are used for the
selector switches; the volume control is the smallest
A � set� of hardware includes a screw and a KEP nut
size, next to the power switch; the 3 other sets go on
with attached lockwasher. Always install the lockwasher
the 3 central control shafts. Be sure all the locating
side first. Screws are always inserted from the outside of
lugs on the controls engage the holes in the panel be-
the chassis unless otherwise specified. #4 hardware is
fore securing the hardware. The wires from the
smaller in diameter than #6. To separate #4 nuts from the
phone jack go under the board. Push the ends of the
#6s, use a long #4 screw to test.
wires through the grommet.
We suggest you check off the parts as you unpack the
8 Select the small circuit board assembly PC-13 and
kit, and separate them in an egg carton for convenience.
two #4 screws. With the circuit board uppermost,
position the assembly at the top of the large front
1 The flanges of the front sub-panel bend towards the
panel opening so that the sockets on the board align
inside of the preamp. Select the U-shaped head-
with the pins from below, and plug the board down-
phone jack mounting bracket and 2 sets of #4
ward onto the pins. Make sure each pin is properly
hardware. Install the mounting bracket on the out-
engaged. Secure the assembly with screws through
side of the front panel, in front of the rectangular
the panel.
hole in the lower right comer.
Set the front panel aside, and select the PC-12 circuit board.
2 Select the headphone jack, its washer and nut.
The front of the board marks the component locations, and � J�
Install it through the front panel with the single lug at
designations. Most components mount on the front. Always
the bottom. The washer goes outside the bracket,
install them tight against the board, and solder each lead on the
secured by the nut.
back (circuit) side. Then cut off all excess leads.
3 Prepare a 2� black wire. Connect one end to the
9 Select the two 22,100 ohm resistors (red, red,
lower forward lug of the headphone jack. (S). Place
brown, red) and install them at locations R50 and
this wire through the panel.
R150.
4 Prepare a 14½� green wire, but strip 3/8� of insulation
10 Select the two 1,100 ohm resistors (brown, brown,
from one end. Prepare a 14½� red wire. Prepare a 14½�
black, brown) and install them at R21 and R121.
black wire. Start with the red wire ź� longer than the
11 Install the four 1 megohm resistors (brown, black,
longer bare end of the green wire, and the black wire ½�
black, yellow) at locations R22, R23, R122 and
shorter than the green wire. Twist these 3 wires together
R123.
uniformly throughout their length. Make about 3 com-
12 Select the two 4-pin molded sockets. These are to be
plete twists every two inches. On the rear of the phone
installed at locations J26 and 5126 on the front of the
jack 8 numbered positions identify the 6 lugs in a counter-
board, with the pins through the upper row of holes
clockwise rotation, with the #2 lug at the bottom (in line
(arrow) at each location. The lower row of holes
with the front lug), and the #6 lug at the top. Insert the
provides access from the rear of the board for plug-in
longer bared end of the green wire through the #8 lug and
capacitors. lb assure correct alignment of the sock-
connect it to lug #7. Solder both lugs. Connect the red
et, insert a capacitor lead from the rear into holes E,
wire to lug #6. (S).
F, G and H to engage the sockets while you solder
5 Prepare another 14%� green wire with 3/8� stripped from the pins, and then remove the capacitors. Be sure
one end. Prepare one end of a 14½� black wire. Do not solder flows freely around each mounting pin for a
strip the other end. Prepare another 14½� red wire. Start good connection. Sometimes these pins do not ac-
with the longer green wire end ź� longer than the red cept solder easily.
wire, and the bare end of the black wire ½� shorter than
13 The proper way to install the 24 phono input sockets
the red wire. Twist these together as before. Insert the
is to first insert a phono plug (on the end of one of the
longer end of the green wire through lug #3 of the phone
audio connecting cables supplied in the kit) so that
jack and connect it to lug #4. Solder both lugs. Connect
the center contact will not be deformed in the
the red wire to lug #2. (S).
mounting process. Adjacent to the center hole for
9
�each socket, the board is marked to indicate the side of Then grip the larger portion of the strain relief with
the hole on which the center mounting tab should be
the tips of the pliers, squeeze it tightly, and insert the
positioned, so that it will be soldered to the widest part of end of the cord and the strain relief through the panel
the circuitry on the back side. Leave the phono plug in the hole from the outside. Note that the hole has a flat on
socket while bending and soldering is completed. If you one side, and the strain relief is installed so that the
do not bend the center tab quite flat against the board, it is cord is horizontal.
easier for solder to flow under the tab for a good connec-
tion. Solder both outer socket lugs first (they need not be This is the most difficult step in the kit. Patience, and
bent over), and then the center tab on each socket. At J9 a friend� s help, if available, will make this job easier.
be careful that a solder bridge is not made between the Safety requirements dictate that this be a tight fit.
center contact and the adjacent circuit track. Be sure Some persons might find it helpful to bolt on a side
holes Q and S are not filled with solder when installing piece (with the flanges out) to add rigidity to the
sockets J 11 and J 1 1 1. A wooden toothpick will keep back panel, as well as a support to press against the
back panel while you squeeze the strain relief and
them open.
pull the line cord through. The fixture snaps into pos-
ition when it is fully inserted. Remove the side piece
14 Select the two right angle 15-pin plugs, and install
if you attached it.
their shorter pins at locations J22 and J24 at the top
of the board, so that the bent pins point toward the
20 Select the power transformer and 2 sets of #6
upper edge. Be sure these sockets are tight against
hardware. Install the transformer next to the line
the board, and make certain that every pin connec-
cord so that the leads are in the lower comer below
tion is properly soldered. Examine each connection
the strain relief.
closely to make sure there are no solder bridges
between the tracks.
21 Select the 4 AC sockets. Snap these into the back
panel holes from the outside.
15 Prepare a 1� piece of green wire, and form it into a ½�
wide � U� . This wire connects on the back of the
22 Select the PC-12 circuit board assembly and the 2 flat
board between holes A and B. Allow this wire to sit a
cable interconnecting assemblies. Plug one end of
bit above the board, as it is a jumper which you may
each cable onto the pin connectors at the top of the
wish to remove at some future date, if you install a
board so the cables extend past the back of the
pre-preamplifier for a moving coil cartridge. After
board. The marked edge of the cable is not signifi-
soldering be sure you cut off any excess wire on the
cant. Now check socket J1 to make sure it does not
front, so it cannot short to the input socket.
contact the stub of wire at hole A.
16 Prepare a 1� piece of red wire, and form it into a � U�
as before. Connect it in like manner to holes C and D
on the back of the board.
17 Select the two 10,000 pF capacitors and install them
on the front of the board at locations C1 and C101.
18 Select the 2 long bright screws, the 2 lockwashers,
and two of the spacers. Place a lockwasher over
each screw first, and insert the screw from the back
(circuit side) of the board into one of the mounting
holes next to the rear jumpers. Add a spacer on the
components side, and tighten it. Set the completed
board assembly aside.
19 Select the back panel, the AC line cord, and the plas-
tic strain relief. Separate the two conductors at the
end of the cord for 2� . Cut 3/4" off of one conductor.
Strip both ends the usual ź", and tin the strands to
secure them. Six inches from the longer end make a
sharp V in the cord by bending it back on itself.
Install the strain relief as shown in the drawing. The
small end of the strain relief is nearest the stripped
ends. Crimp the two halves of the strain relief
together around the cord with heavy pliers to par-
tially form it before insertion into the back panel.
10
�23 Select the 6 black 5/8" 34 Plug the two flat wire assemblies onto the pin con-
screws, the 6 spacers, and 6
small nuts. Insert the screws from the outside of the nectors on PC-14.
back panel at the locations nearer the center of the
panel (not in the end holes marked � Grounds� ). 35 Prepare a 1%� piece of white wire. Connect one end
Install a spacer on each screw and tighten them. to the rear lug of the power switch. (S). Connect the
Place the PC-12 assembly in position so that its two
other end to eyelet Y of PC-14, nearest the fuse. (S).
screws pass through the end holes. Install the nuts All eyelet connections should be soldered on the
on the black screws, and tighten them. bottom of the board for secure connections.
24 Select the 2 small nuts and the 2 knurled thumb nuts. 36 Select the white wire from the tear grommet. Con-
Install a nut on each of the Ground screws, making nect it to eyelet W on PC-14. (S).
sure the lockwasher surface is tight against the
panel. It must cut through the painted surface to 37 Select the blue wire from the grommet. Connect it to
make a chassis ground connection . Then add the the side lug of the power switch. (S).
thumb nuts.
38 Select the yellow wire. Connect it to eyelet T on
25 With a pair of pliers, carefully twist the 8 lugs on the PC-14. (S).
AC outlets counter-clockwise l/6 turn, or about 60º.
This will enable a wire to be passed horizontally The transformer leads may be shortened as desired for
through these lugs. neatness, but if there is any possibility that the transformer
may be connected for a different line voltage for use out-
26 Cut a 2ź� piece of the bare buss wire. Slide it side the USA, be sure to leave each lead long enough for
through lug #2 of AC outlet B and connect it to lug
any alternative connection. We suggest that these leads be
#l and to lug #3. Solder lugs 1 and 2. made just long enough that they can be twisted together for
neatness, and placed outside the end piece where they can
27 Cut a 3%� length of bare wire. Slide it through AC be later secured with a wire tie.
outlet lugs #6 and #7, and connect it to lug #5 and to
lug #8. Solder lugs 5,6 and 7. 39 Connect the Red-Yellow lead to eyelet A in the tear
comer of PC-14. (S).
28 Prepare a 13� length of white wire. Connect one end
to AC outlet C, lug #3. (S-2). Place this wire over the 40 Connect the two Red leads to eyelets B and C along
top of the transformer. the rear edge of the board. Solder both.
29 Prepare a 13� blue wire. Connect one end to outlet D For 120 volt wiring as in the USA, the following lead con-
lug #4. Place this and the following wire over the nections are to be used. Refer to the alternative line vol-
transformer. tage diagrams in the manual for other line voltages.
30 Prepare a 12½� length of yellow wire. Connect one 41 Connect each lead as follows and solder:
end to outlet D lug #8. Brown/White to eyelet D
Black/White to eyelet E
31 Select the two side pieces, the rubber grommet, and Brown/Red to eyelet F
4 sets of #6 hardware. Install the grommet in the side Black/Red to eyelet M
piece location adjacent to the power transformer Brown to eyelet R
Black to eyelet S
when the flanges bend towards the outside of the
unit. Before bolting this piece in position, pass the
42 Connect the short black wire from the forward lug of
line cord through the grommet from the outside, and
under the transformer. From the inside thread the 3 the phone jack to eyelet G2. (S).
wires which come from the AC outlets and over the
top of the transformer out through the grommet. 43 There are two groups of wires connected to the
Fasten both side pieces to the back panel.
phone jack under PC-14. The red and green wires
which connect to lugs 2 and 3 (these ate the lower
32 Connect the shorter line cord conductor to outlet D lugs, adjacent to the circuit board edge) are to be
lug #8. (S-3). Connect the other conductor to lug connected to the upper (left channel) holes P and Q
#4. (S-2). on the back panel circuit board PC-12, adjacent to
the line outputs. Make certain you have the correct
33 Join the front and rear halves of the preamp so that group. The black wire is not connected to the board.
Instead, keep it twisted with the other wires until it
the tabs on the main board rear bracket ate outside
the side pieces. Select 2 sheet metal screws and fas- is close to the board, then wrapped tightly around
ten the bracket tabs to the side pieces. the red and green pair. Make sure no bare wine pro-
trudes from the black insulation. Connect the red
11
� PHONO LEFT 0 RIGHT
nn
I�
, I
SELECTOR MONITOR TONE
PHONO
K s3
FLAT ROUND
D13 D14
�HT LEFT LINE
I
0109
0107
c21
- M l -
C32
c34 C36
0 0
Cl9
I
VOLUME
L
R26
�wire to hole Q, which is between the center lugs of cap into the slots of the front panel. Select the 4 cap
Jll and 512. (S). The wire should not protrude sig-
screws and nuts, and secure the end caps with the
nificantly beyond the front surface of the board to large Allen wrench.
avoid coming in contact with a connector. To assure
53 Install the appropriate loading capacitors at the pairs
a good solder connection, bare wire should be visi-
ble on the circuit side of the board. Connect the of holes identified E, F, G and H below the phono
input sockets on the back panel board. The correct
green wire to hole P in like manner. (S).
choice is discussed in the Additional Information
section of this manual. In lieu of more specific in-
44 At the rear of the phone jack, connect the black wire
formation, we suggest the 120 pF values at E and G
from the first group (lugs 2 and 3) to PC14 eyelet G3.
for Phono 1, and the 220 pF values at F and H for
(S).
Phono 2. Bend one lead around the capacitor so it is
45 Select the other group of three wires, and connect the parallel with the lead at the opposite end. The leads
should extend more than 1%� from the body, but must
black wire to PC- 12 hole T. (S). Connect the red wire to
hole S between Jl 11 and J112. (S). Connect the green not be longer than or they might touch the metal
wire to hole R. (S). Make sure the wires do not protrude back panel. Plug each into adjacent pairs of holes.
significantly beyond the outside surface of the board.
Now check to make sure that there are no strands of power
transformer leads, or the line cord, that are unsoldered. Where
46 Connect the black wire of the second group to PC14
the line cord passes under the transformer, make sure it is
eyelet G1. (S).
clear of the screw hole in the back panel flange. Check that a
1/10 ampere fuse is installed in the PC-14 clips, and
47 Select the 2 red LEDs. To install these with correct
that the Red/Yellow transformer lead connects to the corner
polarity, observe the tiny � flat� on the LED flange which
eyelet A.
marks the cathode lead. This must he towards the near
end of the PC- 14 board, or Phono switch S 1, when the
54 A wire tie can secure the transformer leads to the
LED is attached to the front, near the edge. When the
side piece through the slot behind the PC-14 bracket.
nipple of the LED is pointed toward you, with the flat on These ties can be used only once, and lock securely
the left, bend the leads (together, with long-nosed pliers) when the tail is pushed through the head end from
upward at a right angle, so the bend will be 7/10� from the
the flat side. Cut off the excess after pulling it tight.
back surface of the LED (about ¾� ). Solder the LEDs to
the front holes on the under side of PC-14 with the bent 55 The two groups of output leads from the phone jack
portion of the leads emerging on the top side. Each LED should be positioned at least 1� in from the side
protrudes through the front sub-panel hole. Solder both
piece, and straight to the rear of the PC-14 board;
leads on each LED. then kept close to the bracket. A wire tie is
suggested at the rear comer. You may wish to use the
48 Cut two ½� lengths of the black plastic shrink tubing.
3rd tie on the wiring to the AC sockets, or on the
Slide a piece of tubing over each LED from the front, so output leads near the back panel.
only the nipple of the LED protrudes. Shrink the tubing
around the LED body by holding a lighted match near the 56 With 6 of the sheet metal screws, install the bottom plate.
tubing. This will prevent back light from reflecting on the The 2 large holes should he near the phono inputs at the
sub-panel. rear.
49 Select the two flat knobs, 2 set screws, and the smal-
57 Place the 4 rubber feet in the corners of the bottom
ler L-shaped Allen wrench. Place a screw on the end
plate. They are self adhesive when you remove the
of the wrench and thread it into each knob. Install
paper backing.
these knobs on the switch shafts above the LEDs.
58 Slide one piece of the U-shaped long plastic grommet
The set screw should engage the flat on each shaft.
onto the top flange of the front sub-panel. The other piece
goes on the top flange of the back panel.
50 In like fashion install the remaining set screws in the
4 round knobs, and fix them to the flatted shafts on
59 Check to make sure that the flat ribbon cable as-
the other controls.
semblies are up close to the top of the unit, away
from the circuit board, and slide the cover on from
5 I Taking care not to use excessive force, install the 6
the tear. Secure it with the 4 sheet metal screws.
black pushbuttons on the switches.
60 Affix the self adhesive serial number label to the
Select a pair of end caps-either the standard ones,
52
center rear of the bottom.
or those for rack mounting-and the black front
panel extrusion. Place the front panel in position,
You may wish to secure the smaller Allen wrench for the
taking care to insert the LEDs into their holes, and
knobs to the bottom of the unit with tape.
check for sufficient clearance around each knob. It
is possible to shift the phone jack bracket slightly, or
the mounting of an individual control (by resolder-
ing) if necessary for correct alignment. Slip each end
�IF A PROBLEM ARISES
If neither LED lights when you first turn on the power If there is noticeable hum; turn off the unit and reverse
switch, turn the unit off immediately. Check the fuse. the line cord. Make sure the preamp is not too close to the
power amplifier (or that the turntable is not too close,
Check the polarity of the LEDs. Check the power
transformer wiring for proper connections for your line either). Check for a defective connecting cable, or turn-
table ground wire. Inside the preamp, the screws for the
voltage. Look for a short caused by a stray strand of wire,
or for a solder splash on the circuit board. A print of the thumb nut ground connections must be tight, both to the
PC-12 board, where the lockwasher under the screw head
circuit pattern in this manual enables you to check out a
doubtful connection which might include a solder bridge. contacts the circuit ground, and to the back panel, where
the lockwasher must break through the paint to the metal.
Also, the PC-14 rear bracket mounting screw near the
If there is no audio output, is the monitor switch OFF? Is
power transformer must be tight for a good ground con-
the EPL switch OUT? Is the wiring of the phone jack cor-
tact.
rect? Are the plugs seated properly on the flat ribbon
cables-not offset by one pin? Is the Phono pushbutton
A spare 1/10 ampere slo-blo fuse is supplied with the kit.
switch in the correct position? Check the PC-12 for a solder
A larger value fuse will not provide protection in the event
splash between the circuit paths. A sharp knife can correct
of a fault. If the replacement fuse blows, the unit should be
that.
returned to the factory for competent service.
AC LINE CONNECTIONS FOR OVERSEAS USE
The power transformer supplied with the DH-110 has
dual tapped primary windings. By arranging these two
windings in various series-parallel combinations, line vol-
tages of 100,120,200,220 and 240 volt 50/60 Hz lines can be
accommodated.
The diagrams below show the connections for altema-
tives to the 120 volt connections shown on the pictorial
diagram. When connected for 200-240 volt lines, the line
fuse should be changed to l/16 ampere (60 mA) slo-blo.
240V
Jo
BLACK
15
�ADDITIONAL INFORMATION
RACK MOUNT END CAP INSTALLATION
If you require new capacitors, we suggest that you
Every DH-110 is supplied with front panel accessory end
purchase, if possible, either polypropylene or polystyrene
caps which adapt it to a standard 19� rack panel, and with a
types. These premium grades have been selected for all
5/32� Allen wrench which fits the mounting screws.
critical circuits in the DH-110 because of their superior
audio performance. Their leads should be formed like
Remove all power and signal connections from the DH-
those presently installed, and they must extend at least ź",
110. On a protected surface such as a towel, remove the
but not more than 3/8� beyond the capacitor body to avoid
two cover screws on each side of the bottom, and slide the
a short circuit to the back panel.
cover back. Remove the screws in each corner of the front
panel. Exchange the end caps-they slide outward. If you
Some fastidious users prefer to solder the compensation
are careful, you will not dislodge the LEDs from the panel.
capacitors in place once a final value has been determined,
Replace the cap screws and nuts only finger tight at first.
to preclude any less-than-perfect socket contact as time
Check the alignment of the panel around the knobs before
passes.
tightening fully. Then replace and secure the cover.
PHONO CARTRIDGE CAPACITOR LOADING
PHONO CARTRIDGE RESISTIVE LOADING
The cartridge manufacturer usually specifies in their
As supplied, the phono load resistance of the DH-110 is
instructions the optimum � load� or termination for the car-
46.55K ohms, which is accurate loading for most car-
tridge. The needed capacitance is expressed in picofarads
tridges. This value may be changed if need be, by replacing
(pF). The DH-110 is supplied with pairs of two values of
Rl and RlOl on the main circuit board. See the board dia-
capacitors plugged into the sockets behind the rear circuit
gram in the center of the manual.
board at the Phono inputs (one for each channel). One of
these values is likely to accommodate the majority of
The input resistance is determined by the parallel com-
available cartridges with most high quality connecting ca-
bination of Rl (101) and R2 (201), each of which is 93.1K
bles within the accepted tolerance of Ä…5OpF If no informa-
ohms (white, orange, brown, red). A different value of Rl
tion is available, we suggest first trying the 120pF which is
(101) will change the desired load to the value RT in accor-
installed in the Phono 1 input.
dance with the formula:
-93.1
The total capacitive load is the sum of three numbers:
Rl =
Turntable cable capacitance (from its manufacturer)
1 - 93.1/RT
+ Preamp input capacitance (DH-110 = 30 pF)
+ Compensation capacitor (value you desire)
To simplify, the following standard 1% values of Rl will
= The specified load (from the cartridge manufacturer)
provide desired loads RT as shown (all in Kohms):
Rl Value Kohms Desired Load Kohms
You need to know the cable capacitance, from either the
11.3 10
turntable maker, or the cable supplier, if they are separate.
17.8
15
Unfortunately, this is not always readily available, and it
24.9 20
can vary widely, but lower capacitance cables invariably
34.8 25
are more expensive. If you must guess, use 60pF per foot.
44.2 30
If your turntable accepts plug-in cables, you can usually
56.2 35
overlook its internal wiring capacitance, as it will likely be
within the 50pF tolerance. Short cables are desirable
Metal film type resistors are recommended for lowest
because total cable capacitance can itself be higher than
noise.
the total specified load. The lowest you can go in compen-
sation is to leave that capacitor out. It is why a good
preamp design has a low input capacitance.
As an example: Recommended cartridge load= 320 pF
The turntable has a three foot cable, and
they say it is 60pF/foot. Subtract 3 X 60 = -180
So far we still need 140 pF
Subtract the DH-110 input capacitance = -30
Compensation capacitor required =110 pF
This is close enough to the 120pF supplied that Phono 1 can
be used without change.
16
�Use connecting cables of high quality, and treat them
MINIMIZING NOISE IN THE SYSTEM
with care. Unplug cables by grasping the connector-not
the cord-to maintain good connections. We have no evi-
Your choice of separate components is the right way to dence that special connector platings are required, but the
secure the best performance from a music system, but the surfaces should be free from grease, fingerprints, or any
wide-band characteristics and complexity of the best sys- contaminate that may prevent a firm and complete connec-
tems may also not conceal the introduction of ground tion. Some audiophiles are convinced that a good contact
loops and noise pickup-especially RFI (radio frequency
cleaner is an important adjunct to a high quality music sys-
interference). With exceedingly high quality equipment we tem.
may become conscious of distractions that would be ig-
nored on a lesser level. Careful interwiring practice will It does not usually reduce noise to connect each compo-
greatly reduce the likelihood of such problems. nent to an � earth� ground. This may even aggravate a
ground loop problem, for good � earth� grounds are hard to
The DH-110 is a very quiet preformer. There can be oc- find, and unsatisfactory grounds are likely carriers of RFI.
casions where even the finest equipment exhibits hum or
noise due to irregularities in its interconnection. The sim- The previous suggestions may also help reduce RFI. In
ple expedient of reversing line cord plugs will often reduce difficult cases, RFI filters can be purchased for insertion
hum. Listen to the hum level after each change, reversing between the line cord plug and the wall outlet, or a device
only one cord at a time. called a ferrite bead may be installed in the phono stage by
a competent technician. If you use a pre-preamplifier and
CAUTION: Do not indiscriminately disconnect and find that it is RF1 sensitive, increasing the cartridge com-
reconnect a power amplifier when other components are pensation capacitor may help (moving coil cartridges do
turned ON. Use the DH-110 muting circuit for protection not require a specific value), or try connecting a 0.01 mfd
against loud noises. With the power amp connected to a capacitor across the phono input jack that feeds the pre-
switched convenience outlet on the DH-110, turn the preamplifier. Even for experienced engineers, RFI pre-
preamp OFF, reverse the amplifier line cord, and then turn sents problems which often demand that they simply � try
the preamp ON. and try again� .
17
�Tape 2
TONE
l aw
FILTER
CD/Video
Treble Bass
EPL
PHONO
VOL
Phono 1
1
C
0 0
2
Phono 2
C
Tuner
LINE
To Right
Record Out
Channel
EPL Send
EPL
Switched Direct
FUNCTIONAL BLOCK DIAGRAM
1 8
�COMPONENT VALUES
COMPONENT VALUES
Rii channel corresponding values have designations above 100.
All resistors are 1/4 watt I% Metal Film unless otherwise noted.
Cl 10 mF, polypropykne, 5Ov CP111
93,lOOohms RM045
RI
120 pF, polypropylene, 50v CPll2
R2 93,1OO ohms RMO45
220 pF, polypropykne. 50v CPl16
R3 1,100 ohms RM025
CP11
22,100 ohms RM035 10nF polypropylene, 5Ov
R4
CNll6
22 mfd, NP ekctmlytic, 5Ov
R.5 22,100 ohms RM035
220 mfd, NP ekctmlytic, IOv CNll2
R6 147.000 ohms RMO43
220 mfd, NP ekctrolytic, 10v CN112
147,000 ohms RMO43
R7
CC123
I5 nF, polycarbonate, 5Ov
R8 22,100 ohms RM035
I5 nF, polycarbonatc, 5Ov CC123
RM035
R9 22,100 ohms
Cl1 25 nF I%, poiypropykne, 50v CZ1 I4
47,500 ohms RMO36
RIO
Cl2 6.8 nF, 1%. polypropylene, 5Ov CZll5
RI1 47,500 ohms RM036
1000 mfd, NP ekctrolytic, 6v CN111
Cl3
RI2 100 ohms, 1/2 w, 5% carbon film RDl2l
Cl4 1.5 nF, polypropykne, 50v CPll4
RDl2l
RI3 100 ohms, 1/2 w, 5% carbon film
Cl5 IO nF, polypropylene, 50v CPII I
11,000 ohms RM024
RI4
22 mfd, NP ekctrolytic, 50v CNI I6
RM0l4 Cl6
Rl5 301 ohms
CL111
Cl7 470 mfd, low ESR electrolytic, 25v
R16 100 ohms RM0l2
Cl8 470 mfd, low ESR electrolytic, 25v CL111
RI7 147,800 ohms RMO43
CPl18
Cl9 470 nF, polypropylene, 50v
RI8 II,000 ohms RM024
68 pF, polypropylene, 50v CP144
499 ohms C20
RI9 RM018
c21 10 nF, polypropylene, 50v CPlll
R20 I megohm RM044
c22 22 mfd, NP electrolytic, 5Ov CN116
RM025
R2l 1,100 ohms
C23 470 mfd, low ESR electrolytic, 25v CL111
RMO44
R22
1 megohm
C24 470 mfd, low ESR electrolytic, 25v CL111
R23 I megohm RMO44
C25 I .5 nF, polypropylene, 50v CP1 14
R24 1,100 ohms RM025
CC123
C26 I5 nF, polycarbonate, 50v
100,000 ohms linear taper RPO2l
R25
CC114
C27 47 nF, polycarbonate, 5Ov
potentiometer (Balance)
470 nF, polycarbonate, 5Ov CC115
C28
R26 50,000 ohms log taper RPO29
C29 4.7 mfd, NP ekctrolytic, 25v CN118
potentiometer (Volume)
CNll9
C30 47 mfd, NP ekctrolytic. l6v
147.000 ohms
R27 RM043
C3l 100 nF, polycarbonate. 50v CC125
17,400 ohms RM027
C32 1000 mfd, electrolytic, 50v CL124
RM027
17,400 ohms
1000 mfd, electrolytic, 50v CL124
c33
R30 82,500 ohms RM046
CL117
C34 22 mfd, ekctmlytic, 50v
R3l 82,500 ohms RM046
c35 100 nF, polycarbonate, 50v CC125
47,500 ohms
R32 RM036
CL117
CM 22 mfd, ekctrolytic, 50 v
R33 47,500 ohms RM036
100 nF. polycarbonate, 50v
c37 CC125
R34 100 ohms, 1/2 w, 5 % carbon film RDl2l
CC114
C38 47nF, polycarbonate, 50v
R35 100 ohms, 1/2 w, 5% carbon film RDl21
CNl18
c39 4.7 mfd, NP ekctmlytic, 25v
316 ohms RM015
R36
4.7 mfd, NP ekctrolytic. 25v CN118
C40
R37 100 ohms RM012
C4l 22 mfd, electrolytic, 50v CL117
R38 ll,O00 ohms RM024
100,000 ohms inverse log taper RP022
R39
QD1 15
Dl IN4003
potentiometer (Treble)
QD115
D2 IN4003
4990hms RM018
R40
QD115
D3 lN4003
R41 1,100 ohms
QD1 15
D4 IN4003
R42 11,000 0hms
QD115
D5 IN4003
R43 100,000 ohms inverse log taper RP022
QD115
D6 IN4003
potentiometer (bass)
QD113
D7 IN525lF 22v Zener, 1%
R44 316 ohms RM015
QD1 I5
D8 IN4003
R45 1.100 Ohms RM025
D9 IN4003 QDll5
R46 11,000ohms RM024
D10 IN525IF 22v Zener, I% QDll3
R47 11,000 ohms RM024
QDII5
Dll IN4003
R48 1,lOOohms RMO25
D12 IN524OB 10v Zener, 5% QDlll
R49 I megohm RMO44
D13 LED QD119
R50 22,100 ohms RM035
QDI 19
D14 LED
R5l 270 ohms, ź w, 5% carbon film RCO29
QBll3
ICl LM3l7T Positive Regulator
R52 1,800 ohms, ź w. 5% carbon film RC023
LM337T Negative Regulator QBll4
IC2
R53 270 ohms, ź w, 5% carbon film RC029
LM393 Dual Comparator QBll6
IC3
R54 1,800 ohms, w. 5% carbon film RC023
R55 4,708 ohms, w, 5% carbon film RC042
QNll7
414C Transistor
R56 w. 5% carbon film RCO44
QPIl7
416C Transistor
w. 5% carbon film RCO44
416C Transistor QP117
w, 5% carbon film RC038
55OB Transistor QNl18
R59 10,000 ohms, ź w, 5% carbon film RC0l6
556B Transistor QP124
R60 RC028
2.2 ź w, 5% carbon film
QNl26
546B � Transistor
R6l 680,000 ohms, ź w, 5% carbon film RC046
550C Transistor seketed
R62 27Oohms. ź w, 5% carbon film RC029
560C Transistor seketed
R63 100,000 ohms, ź w, 5% carbon film RC017
550C Transistor seketed
R64 47,008 ohms, ź w. 5% carbon film RC043
560C Transistor seketed
R65 10,000 ohms. ź w. 5% carbon film RC0l6
560B Transistor QPII8
1,800 ohms; ź w; 5% carbon film RC023
QNll8
55OB Transistor
RC015
1,000 Ohms, ź w, 5% carbon film
QPII8
56OB Transistor
R68 1,000 ohms, ź w, 5% carbon film RC0l5 --
550B Transistor QNII8
R69 4,640 ohms, ź w, 5% metal film RM034
QNl3l
Jll2 FET
Phono Input Selector, DPDT SPI I2
TAII8
Transformer, Power
Source Selector SRl I2
Monitor Sckctor SR111
s3
Fl Fuse, 1/10A Slo-Blo, AGC
s4 EPL switch, 4PDT SPI I3
S5 Mono switch, 4PDT (assembly) SAI I6
s6 Tone switch, 4PDT SP111
Filter switch, 4PDT (assembly) SA1 16
Power switch SLll2
19
�CABLE PIN NUMBERS
TUNER
TAPE 1
R24
I I I
EPL SEND
� I I
DIRECT
OUTPUT
OUTPUT VIA
PHONE JACK
PHONO 1
PHONO 2
GROUND
Twisted
L
I
PHONE
JACK
black
b .
2 3 4 1 2 3 4
4 0 1 2 3 4 5 6 1 6 2 3 4 5
POWER SUPPLY
0 0 0 0 1 I I
3 0
2 0
012
SWITCH PINS SEEN FROM BOTTOM OF CIRCUIT CARD
NOTE:
shown for
For other
at
ACCESSORY OUTLETS
�LINE AMPLIFIER
CABLE PIN
ASSIGNMENTS
J22 TO
PC13
PIN
1 AUX L
2 TUNER L
3 RECORD L
4 LINE GND L
SHIELD GND
AUX
7 RECORD
TUNER
LINE GND
R 4 9
10
11 GNDR
12
13 PHOND 1
14 GND L
C29
TO
1 GUT LINE L
2 SHIELD
3 WT LINE
L
4 SHIELD
5
SYMBOLS
6 EPL RETURN
7 SHI ELD
POWER SUPPLY GROUND
L
MUTING
SHIELD GROUND
ID SHIELD
11 TAPE1 L
LEFT ,
12
CHANNEL SIGNAL GROUND
13 SHIELD
RIGHT
14
1
POWER SUPPLY RAILS
CIRCUIT CARD LAND
CHASSIS GROUND
MALE CONNECTOR PI N
FEMALE CONNECTOR SLEEVE
CLOCKWISE, DEPRESSED
J J
DH 110 PREAMPLIFIER
SCHEMATIC DIAGRAM
LEFT CHANNEL SHOWN TO S7, AND
LARGE CIRCUIT CARD IS
Copyright 1985. All rights reserved.
�KIT PARTS LIST
KIT PARTS LIST
Minor variations may sometimes be encountered in value or appearance. These will
not affect performance. Some items may have been used to package the kit for
NON-COMPONENT (BACK) SIDE
shipment.
I Cover, black MS138
1
Bottom plate MS137
I Front Panel extrusion, black ME1 14
1
Front subpanel MS132
1 Back panel, black
MS136
2 Side piece MS135
1 Power transformer TA118
1 PC-12A circuit board KB037
1 PC-13 circuit board assembly
KF319
1 PC-14C circuit board assembly KF346
2 Cable assembly, interconnect WA011
1 AC tine cord WA016
2 Grommet, U-shape plastic 12� HRl27
Wire, red, 22 gauge
Wire, green, 22 gauge
Wire, black, 22 gauge
Wire, white, 18 gauge
Wire yellow, 18 gauge
Wire blue, 18 guage
Wire. bare, 18 gauge
Bag #1
Capacitor, 10,000 pF (0.01 uf)
CP111
Capacitor, 120 pF CP112
Capacitor, 220 pF CPI16
Lockwasher, X4, external tooth
HW121
Nut, volume control, M8 x .75 HKI 14
Plug, 15 pin, right angle XM019
Resistor, l.lK ohms
RM025
(brown, brown, black, brown)
2 Resistor, 22.IK ohms RM035
(ted, red, brown, red)
4 Resistor, 1 megohm RM044
(brown, black, black, yellow)
Set screw, #8 x 3/16"
HP122
Socket, 4 pin bottom entry XM012
Washer, volume control, M8 flat HWlll
LED, red QD119
Shrink tubing, 1� HR135
10
Nut, 4-40 KEP HK111
6
Nut, 6-32 KEP HKl12
4 Nut, 10-32 KEP HK113
3 Nut, control shaft, M7 x .75 HK115
2
Nut, 3/8" HK1 19
2 Lockwasher, 3/8" HW118
6
Screw, 4-40 x 5116� HA113
6
Screw, 4-40 x 5/8", black HP112
2 screw, 4-40 x 7/8" HA1 14
6 Screw, 6-32 x 1/2", black HP1 13
4 Screw, cap head, 10-32 x 1� . black
HPI 14
12
Screw, sheet metal, #6, black HP116
8 Spacer, threaded, 3/8" long
HZ112
2 Thumb nut, 4-40
HKl22
3
Washer, control shaft, M7 flat HW113
Bag #3
4 AC outlet
XA015
1
Bracket, phone jack MS133
4 Foot, square plastic
HR134
I Grommet, rubber HR128
1
Nut, phone jack, M12 x I HK117
1 Phonejack
XZ015
6 Pushbutton, black
HD121
24 Socket, phono input XP0l I
1 Strain relief, black
HR144
1 Switch, power
SL112
3 Ties, wire, nybn
HR138
1 Washer, phone jack, M12.2 flat
HWI 19
End Caps, regular
MCI11
Knobs, flat HDll8
4 Knobs, round HDl17
Audio cable pair WA017
End Caps, rack mount
MC112
1 Fuse, 1/10 ampere Slo-Blo SF022
I Wrench, Allen, 5/32� cap screw
HZ138
1 Wrench, Allen, +8 set screw HZ139
22
�SERVICE POLICY AND LIMITED WARRANTY
Technical assistance to help you locate the source of a
Your DH-110 Preamplifier has been carefully engineered
to provide many years of use without maintenance or ser- problem may be obtained by calling the Hafler Company
Technical Service Department at 609-662-6084 between 8
vice. Factory assembled units undergo many physical and
am and 4:30 pm, eastern time. It will be helpful to know the
electrical tests before shipment. The circuit board in kits is
serial number, and the results of any tests you have per-
similarly tested to meet all primary specifications before it
is packed. Nevertheless, shipping damage can occur, or formed. However we do not recommend that you attempt
your own servicing unless you are knowledgeable in this
human error may intervene to make service necessary.
regard. If you return a properly functioning Preamplifier
Because many of the components in this refined design for service or a checkout, a charge will be made for the
are not readily available, and because substitution of checkout time required, as well as for packing and ship-
apparently similar parts can easily compromise its perfor- ping.
mance, we strongly recommend that you make use of our
complete factory service facilities, or order exact re-
placement parts from the factory.
WARRANTY FOR FACTORY ASSEMBLED UNITS
The assembled DH-110 is warranted for three years from
It is the owner� s responsibility to return the unit, freight
the purchase date, including parts, labor and normal return
prepaid, to the factory service facility. Units shipped
shipping costs from the factory to the owner within the
freight collect will not be accepted. Shipment should be
continental United States. The owner is responsible for
made via United Parcel Service whenever possible. We
shipment to the factory and must submit a copy of the
will not be responsible for damage caused by parcel post
dated bill of sale.
shipment; repairs in this case will be made solely at the
owner� s expense. Be sure you insure for the full value of an
assembled unit.
WARRANTY FOR KIT-BUILT UNITS
Use the original carton and packing materials, and en-
The parts in a DH-110 kit are warranted for a full year
close all of the following:
from the purchase date. If a defective component is found
on a circuit board or in the kit, simply return the individual
1. Complete shipping address (Post Office Box numbers
part to the factory prepaid, together with the serial number
are not acceptable for UPS return)
and the date of purchase. It will be replaced at no charge.
2 . Serial number (if not on the unit).
If you cannot locate the cause of a problem in your DH-
3. Copy of dated bill of sale (for service under warranty)
110, return it to the factory along with a copy of the dated
4. Description of malfunction. If it is intermittent, please
bill of sale, and a check for $30. If the difficulty is solely a
indicate this.
defective part, the unit will be returned to you prepaid, and
your $30 less shipping and packing charges will be re-
5. You may also wish to attach your address directly to the
unit, or to the line cord. turned to you. If the problem is found to be an error in your
assembly of the kit, the unit will be put in proper working
order and returned to you prepaid.
All service work is guaranteed for 90 days.
This warranty is void if the kit has not been completely
Warranties apply only to the original purchaser, and are
assembled, or if other than rosin core solder has been
void if the Preamplifier has been modified without factory
used. Units assembled with acid core or silver solder, or
authorization, or if parts have been substituted which, in
paste flux, will be returned unserviced.
the factory� s opinion, are not suitable, or if the Pre-
amplifier has been physically or electrically abused or
This warranty gives you certain rights. You may also
used for some purpose for which it was not designed or in-
have other rights which vary from state to state.
tended.
PC13
FI L
0
a
0
L
2 3
�Printed in USA
Wyszukiwarka