Aphex 1100 MkII Owner`s manual

Aphex 1100 MkII Owner`s manual
Owner’s Manual
Model 1100 MkII
Dual Class A Discrete Tube Microphone
Preamplifier with Integrated 24-Bit
192kHz A/D Converter
Document No. 999-4200
Aphex Thermionics - Division of Aphex Systems Ltd.
Copyright 2003 Aphex Systems Ltd. All rights reserved. No portion of this manual may be reproduced without permission.
Manual designed and written by Donn Werrbach 02/03. Creation tool: Adobe InDesign 1.5 for Windows. Printed in U.S.A.
Page A-1
Declarations
Model 1100 MkII Mic Preamp - Owner’s Manual
Safety Declarations
A MESSAGE FROM THE PRESIDENT
Dear Aphex Customer,
We are very pleased to present the new
Mark II version of our highly acclaimed
Model 1100 Microphone Preamplifier. The
Mark II has been augmented with a new,
cooler, power supply and extended features
that were requested by our customers. The
unmatched sonic qualities and high technical performance that brought so much
acclaim to the original Model 1100 have not
been changed with the Mark II.
As with all our products we are extremely
proud of the ingenuity of design and the
manufacturing quality of the Model 1100
MkII. We love to hear from you, our customers, about your experiences with any
of our products. Our customer support is
unmatched in the industry, so please do not
hesitate to contact us.
Sincerely,
CAUTION: For protection against electric shock, do not remove the cover. No user
serviceable parts inside.
WARNING: This equipment has been tested and found to comply with the limits for a Class A
digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio frequency energy and, if
not installed and used in accordance with the operating guide, may cause interference to radio
communications. Operation of this equipment in a residential area is likely to cause interference
in which case the user will be required to correct the interference at his own expense.
The user is cautioned that changes and modifications made to the equipment without approval
of the manufacturer could void the user’s authority to operate this equipment.
It is suggested that the user use only shielded and grounded cables to ensure compliance with
FCC Rules.
|
®
C
Conforms to standards
UL60950 and EN60950.
Marvin Caesar
US
59887
Aphex Thermionics: The Story
Abstract From U.S. Patent Number 5,450,034
“A reflected plate amplifier (RPA) for use with electronic audio equipment. The RPA comprises an input circuit for receiving an input signal, a vacuum tube,
a plate current reflector, and an output circuit for delivering an output signal. The vacuum tube has a control grid coupled to the input circuit for receiving
the input signal, and a plate for delivering a plate current responsive to the input signal. The plate current reflector is a transistor having an input terminal
coupled to the plate of the vacuum tube for receiving the plate current, and an output terminal for delivering a reflected current which is responsive to the
plate current of the vacuum tube
and therefore responsive to the input signal, while the plate current reflector holds the
plate voltage of the vacuum tube
substantially constant for a wide range of the plate current of the vacuum tube.”
That patent was issued to inventor
is ludicrous, but less than erudite
RPA patent are the keys to gaining the unparal-
Donn Werrbach and assigned to
reviewers hooked on conventional-
leled sonic benefits of tubes in an almost unlim-
Aphex Systems Ltd. on September
ity have misreported it. For example,
ited range of audio products. To fully distinguish
12, 1995. A close examination
one particularly delusional reviewer
our highest level of tube based audio products,
of the patent reveals that it is a
rather condescendingly declared it
we created the division of “Aphex Thermionics”.
“method” patent and not just a
nothing more than a “starved plate
patent on some particular circuit.
amplifier” (as if he ever saw one).
That means it is possible to apply the patent
Fortunately, these cases are greatly offset by the
teachings to a wide variety of applications and
phenomenal word of mouth praise and promo-
circuit variations with full patent protection.
tion we have received for the RPA products from
Other manufacturers will not be able to duplicate
their actual owners over the years.
Watch for more exciting new products from
Aphex Thermionics.
our RPA based products. Nevertheless, no one at
Thermionics refers to the
first really knew just how significant that inven-
Since the original patent was filed, we have dis-
practical use of the “therm-
tion would prove to be.
covered new ways to create many useful circuits
ionic emission of electrons”.
with RPA principles that would be impossible
Vacuum tubes use thermionic
The first product to apply an RPA circuit was
to realize with conventional tube circuitry. For
emission by heating the metal
our model 107 Thermionic Mic Preamplifier.
example, the Model 1100 MkII Mic Preamp incor-
cathode
The outstanding sonic quality of the unit has
porates a very low noise second stage opamp
become world reknown and tens of thousands of
using just one single triode RPA. Future products
Dual Triode
units have been sold. Anything new and better is
will feature many new tube circuits now in the
high temperature cathode surface. The
sure to stir up controversy. Not surprisingly, the
laboratory. Aphex’s unique servo balanced input
emitted electrons become the source
success of our tube circuitry has alarmed other
and output stages translated into RPA implemen-
of current flow through the amplifying
manufacturers of tube products. Some of them
tations are examples.
tube. A thermionic amplifier, then, is just
reacted with claims that our circuit is not “classic” and therefore not “real tube”. The claim
Electrons
to
are
incandescence.
consequently
emitted into space from the
another name for a vacuum tube ampliIt has become apparent that the principles of the
Aphex Thermionics - Division of Aphex Systems Ltd.
fier.
Page A-3
Block Diagram
19
15
24
16
17
2
4
5
6
20
7
14
10
12
23
8
21
11
13
1
22
1
Mic Input
11 LoCaf Tuning
21 Return Jack
2
Phantom Power Source
12 Preamp Gain
22 Send Jack
3
MicLim Element
13 MicLim Detector
23 Impedance Compensator
4
20dB Pad
14 Reflected Plate Amplifier Output Stage
24 S/PDIF and TOSLINK Digital
5
Phase Reverse
15 Headroom Meter
6
Class A PNP Input Stage
16 24 Bit A/D Converter
7
Reflected Plate Amplifier Second Stage
17 AES/EBU Output
8
Mute Element
18 Line Output
9
Line Output Calibrate
19 700Hz Tone Generator
10 LoCaf
Page A-4
18
9
3
TM
Low Cut Cancellation Filter
20 Tone Relay
Outputs
Introduction
Model 1100 MkII Mic Preamp - Owner’s Manual
The Model 1100 MkII is an extraordinary micro-
ranging from -3 to 41dB. The second stage,
Later in this manual you will be more fully taught
phone preamplifier.
directly coupled to the first stage, is a patented
about MicLimTM. You will notice that there is a
“Reflected Plate Amplifier1” differential tube stage
MicLim optocoupler element located immediately
Every detail met with laborious attention during
with a fixed gain of 21dB. The combination of
across the mic input lines. The MicLim element is
development. Not until we exhaustively tested our
these two stages provides a novel and unique
controlled by the peak detector monitoring the
design both in the field and in the laboratory did
front end yielding from 18 to 62dB of gain.
front end output. When enabled, MicLim will
we resolve to release it to production.
make the Model 1100 MkII virtually overload
The mute element shown comprises a series-shunt
proof. A switched input resistance has been
To complement the technical achievements inside,
dual optocoupler to provide noiseless switching
added to the Model 1100 MkII to extend the
we styled it with a beautiful new look. Chromed
and high attenuation.
MicLim headroom when using low impedance
side brackets provide an attractive and very robust
microphones such as Neumann Condensers.
means for rack mounting. The control windows
The patented Reflected Plate Amplifier output
are illuminated for easy viewing in darkened stu-
stage adds 3dB of gain to the front end yielding
The 700Hz tone generator is a unique feature
dios. The front panel is 3-D machined from billet
the specified gain range of 21 to 65dB.
with many useful purposes. Read about it later in
aluminum then finished in brightly polished deep
this manual.
blue anographics. The text and lines are deeply
Because of graduated power rails, the front end
embedded in the anodizing and can never rub
clip point matches the output stage clip point
Power is supplied by a linear voltage regulator
off. We sincerely hope that our styling efforts will
very closely. Therefore, metering the output of the
assembly and a toroidal power transformer. The
enhance your enjoyment of this preamplifier.
front end accurately displays the headroom of the
ac supply voltage can be selected by the user to
total system. Also, connecting the A/D converter
work with all world standards.
By looking at the block diagram to the left of this
to the front end allows precise calibration of the
page, you will see how the signal flows through
digital dynamic range to that of the preamp.
the Model 1100 MkII. You may find it useful
You should find this manual easy to use. Please
do use it even if you are quite familiar with micro-
TM
to refer back to this diagram later as you read
You will notice the function called LoCaf . This
phone preamplifiers. There are special features we
through other sections of this manual.
is an Aphex exclusive low cut cancellation filter
want you to properly understand and use.
that provides increased headroom for frequencies
You will notice that the microphone input is cou-
below the cutoff. Garbled overload from handling
Thank you for purchasing the Model 1100 MkII
pled to the preamp first stage by going through
noise, wind, or breath is completely eliminated by
from Aphex Thermionics.
a series of relays. The first relay selects the 20dB
LoCaf.
pad while the second serves to flip the polarity of
the signal lines.
The first stage is a class “A” PNP ultra low noise
48 volt phantom power is sourced from a slowly
1. Reflected Plate Amplifier, U.S. Patent No.
ramping voltage generator that eliminates thumps
5,450,034. See, in this manual, “Aphex Therm-
when powering up or down.
ionics: The Story”.
variable gain differential amplifier having a gain
Aphex Thermionics - Division of Aphex Systems Ltd.
Page A-5
Contents
Declarations
A-1
Aphex Thermionics: The Story
A-2
Block Diagram
A-3
Introduction
A-4
Front Panel Features
Back Panel Features
Understanding & Using MicLim
Interfacing & Cables
Installation Instructions
Service & Warranty
Specifications
Tube Topics
White Paper: More Gain, No pain
Appendix A: Word Clock Wiring
Page A-6
1
2
3
4
5
6
7
8
9
10
Model 1100 MkII Mic Preamp - Owner’s Manual
Front Panel Features
1
useful for calibrating the drive to an external A/D
converter.
Figure 1-1 Front Panel
Perhaps the easiest way to learn this product is to study its front panel features. A glance at the panel
snapshots should help bring into focus the commentary to follow.
This button turns on and off the 48 volt phantom
power to the microphone jack. The 48 volt source
1.1 The 20dB Pad
second to trigger the event. Above the button
This button turns the pad on and off. A light
is a light indicating when the tone is on, and a
above the button tells you when the pad is
small sine wave symbol directly below the 20dB
on. The pad is inserted ahead of the preampli-
Headroom Meter segment shows you the correct
fier input but in no way affects the phantom
tone level. While the tone is on, a quick touch of
powering of the microphone. The switching is
the button will immediately shut it off. Use this
performed by gold contact bifurcated (multi
tone to calibrate various pieces of gear you are
contact) relays to avoid developing any distortion
feeding from the preamp. For example, turn on
generating “diode effects”1. Use the 20dB Pad to
the tone and then adjust the output calibration
desensitize the preamplifier for extremely high
trim (and possibly the rear panel output normal
input signals whenever the lowest gain selection
switch) to get a 0dB indication on the VU meter
still yields clipping.
1.2 Polarity
1.4 Phantom
ramps up and down very slowly to avoid thumps.
Slow ramping of power is very friendly to phantom powered microphones which can sometimes
be damaged by sudden power application. Make
sure the phantom power is off when using passive (unpowered) microphones.
1.5 Mute
An unusual feature, the Mute button activates a
soft switch that silences the preamplifier output.
This feature is very useful for testing and performer control. A rear panel jack allows remoted
muting. If either the remote
Channel 1 Window
Channel 2
This directly reverses the polarity of the
vated, then the other cannot
bring an unmute. Muting
microphone input lines. Like the 20dB
affects both the analog and
Pad, the switching is performed by gold
digital outputs as well as the
contact bifurcated relays to avoid contact
reference tone. Use it to allow
distortion. Use this feature to correct the
talent to mute/unmute their
phase of improper mic cables, or to opti-
own microphone (a “cough
mize the mixing of two or more spaced
microphones.
or front panel mute is acti-
button”), for example.
Figure 1-2 Control Window
Digital Audio Controls
1.3 Tone
This button turns on the -20dB, 700 hertz
of an analog recorder or console. This assures
reference tone. For safety reasons2, the button
you will get 20dB of recording headroom along
must be held down continuously for at least 1
with the lowest possible noise. The tone is also
Aphex Thermionics - Division of Aphex Systems Ltd.
1.6 MicLim
Only
Aphex
microphone
preamplifiers have this unique and useful feature. When turned on by the push-button, a
Page 1-1
Front Panel Features
proprietary limiting module acting directly upon
or console with the record level or fader set to
rate when the clock source is internal. The
the microphone signal limits the peak level reach-
a nominal position. Once calibrated, the Model
choices are 44.1kHz, 48KHz, 88.2kHz, 96kHz,
ing the preamplifier input to completely prevent
1100’s headroom meter will closely match the
and 192kHz. It has no function when the Clock
any clipping caused by excessive input levels up
headroom of your connected equipment and
Source is set for “external”.
to approximately 20dB over the normal clipping
you can proceed to operate the preamp with
level. When used mainly for protection against
complete confidence that you’re getting the best
1.11 A/D Converter Indicators
unexpected overload levels during live shows
possible noise performance and dynamic range.
There are three lights related to the A/D converter
in each of the channel windows. In the channel
and recording, it is amazingly transparent. Use it
moderately to help you record or reproduce con-
1.9 Clock Source
1 window, you will see the lights relating to the
sistent full maximum peak levels without fear of
One of the two digital audio controls, this button
Clock Source status and the “locked” status. In
distortion. Read more about this powerful feature
selects the A/D converter’s clock source. When
the channel 2 window you will see the internal
in section 5, “Understanding & Using MicLim”.
“internal” is selected, an internal low-jitter crys-
rate indicators. The internal rate lights will all
tal oscillator supplies the clock reference. When
be dark when external clock is selected, but will
1.7 Headroom Meter
“external” is selected, then word clock is taken
be lighted in internal clock mode to indicate the
20 LED segments indicate the output signal’s
from the rear panel BNC clock input jack. The
chosen sample rate.
peak level below the point of clipping, thus it
1100 MkII will go into a hunt mode until it finds
shows you how much headroom is left at all
the word clock parameters and locks on. The
1.12 Gain
times. In the case of digital audio, the scale also
frequency indicator lights DO NOT come on to
This switch sets the preamp gain in precise 4dB
represents the digital dynamic range of the inter-
tell you the locked frequency. These lights are
steps from 21dB to 65dB. Use it to optimize the
nal A/D converter, i.e., the meter is the same as
reserved to indicate clock frequencies during
operating level of the preamplifier. While observ-
a digital peak level meter referenced to 0dB(fs) .
internal sync only. If external clock is not pres-
ing the peak headroom meter, keep the meter
This meter is useful in establishing the operating
ent, then the 1100 MkII will continue hunting
peaking as high as possible without frequently
gain to attain consistently high but safe recording
for a lock indefinitely and the “locked” light will
hitting 0dB.
levels. You will quickly appreciate how it helps
never come on. The digital audio output will be
you to fully use this preamplifier’s extraordinary
squelched, i.e., there will be no AES/EBU output
dynamic range.
at all. If the Clock Reference is present and valid,
3
1.8 Line Output Calibration
then the “locked” light will come on and the
AES/EBU output will be present and synchro-
This recessed control attenuates the analog line
nized to the clock source. The “locked” light will
output stage gain from 0 to -12dB, allowing you
always come on whenever the “internal” mode
to match up the dynamic range of the preamp to
is selected.
your connected equipment. Use it to match the
1.13 Low Cut (LoCafTM)
This rotary switch sets the low cut (high pass)
corner frequency to one of 11 selected values as
illustrated below. In the Off position, the low cut
filter is tuned very low, around 1 Hertz, taking it
completely out of the way. It comprises a unique
servo cancellation circuit with a second order
modified Butterworth response to optimize the
-20dB test tone to your -20dB reference level. In
1.10 Internal Rate
sonic effectiveness of the filter. The servo cancel-
many cases, this will be done simply by getting
The second of two digital audio controls, this
lation method is so unique we have named it
a 0VU tone indication on your analog recorder
push-button selects the A/D converter’s sample
LoCaf.
Page 1-2
Model 1100 MkII Mic Preamp - Owner’s Manual
With LoCaf you get as much as 20dB of improved
faces begin to oxidize including these points of
headroom below the low cut corner frequency
contact. When that happens, metal oxide point
to reject input overload when compared with
contact diodes are created that rectify the audio
other products. Use this filter to eliminate wind
signal causing distortion. The extremely minute
or breath rumble, handling noise, or other low
current from a microphone signal cannot break
frequency problems.
down these diodes and eventually the diode
effect grows worse and worse until it is plainly
Figure 1-3 Low Cut Characteristics
audible. We chose to avoid the problem altogether , albeit at a higher cost, by using sealed
bifurcated gold contact relays to do mic level
switching. Bifurcation (multiple metal contacts
for each circuit) overcomes the odds of getting
a diode in the path, while gold contact surfaces
oxidize at a rate thousands of times lower than
other materials.
2. One wouldn’t want the reference tone to be
accidentally switched on during a session. That’s
why we put in a delayed reaction. You must
1.14 Power Switch
Pretty simple: it turns the power on and off.
Power indication is by means of the window
backlights. The windows will always be lighted
when the power is on unless the fuse is blown or
the electric supply is disconnected.
intentionally hold down the button for a period
of time to get the tone.
3. dB(fs) refers to “decibels in reference to full
scale” and is the common digital audio meter reference. 0dB(fs) is the maximum peak value that
can be converted to digital.
Notes:
1. Diode contact effects commonly occur whenever microphone signals are routed through ordinary mechanical switch contacts. Here’s how that
happens. The well established fact is that only a
small number of points actually touch between
any two facing contacts. Eventually, all metal sur-
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 1-3
Front Panel Features
Model 1100 MkII Front Panel Summary
10
1
Page 1-4
2
3
4
5
6
7
11
24
8
23
21
9
12
13
14
15
16
17
22 26
18
19
25
20
1
12 Input Gain: 4dB steps, 21 to 65dB
9
20 Line Output Calibrate: 3-Turns, 0 to -12dB
2
13 Low Cut Filter: Off, 30, 36, 44, 63, 77, 92, 111, 134, 162, 195 Hz.
10
21 Headroom Meter: 0 to 50dB indicated
3
14 20dB Pad: On/Off
11
22 Clip/Limit LED: Flashes to indicate clip or MicLim action
4
15 Polarity: Normal, Reverse
23 Internal/External Sync (Clock) Source
5
16 Tone: -20dB reference level, 700Hz
24 A/D Converter Indicators: Internal, External, Locked
6
17 Phantom Power: 48V On/Off
25 Clock Rate : 44.1, 48, 88.2, 96, and 192kHz
7
18 Mute: On/Off
26 A/D Converter Indicators: Internal, External, Locked
8
19 MicLim On/Off
27 Power: On/Off
27
Back Panel Features
Model 1100 MkII Mic Preamp - Owner’s Manual
POWER
|
Digital
Audio
24-Bits
IN
AES/EBU
S/PDIF
59887
INT/EXT
MODE
OUT
80-260V~ 50-60Hz
22 Watts
CHASSIS
GROUND
OPTICAL
INT
GEN
Ch2
Line Out
+4dBu
Line & A/D Insert
Return
Send
-10dBV
Mute
OPEN TIP
MUTES
Z Comp
Mic
In
Ch1
OFF
+4dBu
ON
-10dBV
Line Out
Insert
Return
Send
Mute
Z Comp
OPEN CIRCUIT
MUTES
Mic
In
OFF
ON
Word
Clock
and you’ll get no output. In all other cases you
should get an AES/EBU output signal if the unit
is functioning properly. Before declaring that you
Figure 2-1 Back Panel
The rear panel hosts all power, input, and output connections of the Model 1100 MkII. This section
teaches you how to properly connect and use each interface. Most users will probably find the back
panel completely self explanatory, nevertheless we suggest that you read the commentary carefully
to avoid any possible misuse or confusion and assure that you are getting the maximum performance
from your microphone preamplifier.
2.1 Power Entry
To meet legal requirements, we have not pro-
The standard IEC power receptacle automatically
vided a means to lift the power cord ground from
accepts any normal a.c. power source from 80 to
the chassis. If you determine it is necessary to lift
260 volts, 50 to 60Hz. You don’t have to set a
the power cord ground, you must use a ground
voltage selector and there is no replaceable fuse.
lift adapter on the power plug. You will not be
The internal power supply is self regulating and
able to lift the power cord ground from inside the
self protecting. If the internal fuse should ever
chassis.
blow out, then a catastrophic failure is indicated
requiring service by a qualified technician.
2
have no output signal even though the clock is
locked, be sure your receiving equipment is able
to lock to the sample rate you are using. Many
pieces of gear are not yet capable of receiving the
96KHz sample rate.
2.4 External Clock
Two BNC jacks are provided to permit multiple
Model 1100 MkII’s to be daisy-chained together
from a master clock source. In trying to simplify
the way things work, and we have made everything pretty much automatic for you. Nevertheless, please take the time to study their usage
before planning your installation.
2.3 AES/EBU Digital Audio Output
Preamplifier channels 1 & 2 are encoded into
2.2 Chassis Ground
the respective AES/EBU channels (ch1=left,
Connecting this ground is not essential in most
ch2=right). The standard 110 ohm transformer
cases since the power cord will usually provide
balanced output will interface with any standard
the proper safety ground to the unit. However,
AES/EBU input. Be sure you use professional grade
in case you encounter hums, buzzes, or radio
digital audio cables to insure high quality trans-
interference, you may be able to eliminate them
mission of data. Low grade cables or plain audio
by connecting a separate, heavy gauge, system
cables will severely limit the transmission distance,
2.4.1 Clock In
ground wire to this screw. This is especially help-
and, even worse, induce a large amount of jitter
This BNC jack is provided to receive your master
ful if the unit is not installed in a rack having
into the data stream.
clock source. It will accept industry standard Word
Figure 2-2 Digital I/O & Clock
Clock, from 1 to 5V pulse amplitude. It does not
grounded metal rails that would act as a chassis
accept AES/EBU or Superclock.
ground source. You can try connecting the chas-
In case you get no output signal, check the front
sis ground to the mix console ground, or the
panel to be sure the clock is locked. If external
chassis of other equipment, for example.
clock is selected and there is no external clock
The Model 1100 MkII can operate equally well
source, the AES/EBU output will be squelched
from a typical “brute force” 5V word clock output
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 2-1
Back Panel Features
or from a matched impedance master clocking
When the Model 1100 MkII is operating in the
internal clock mode, the Clock Out jack is discon-
distribution. Please refer to the appendix for a
internal clock mode, the Clock In jack is isolated
nected from Clock In and instead is connected to
thorough discussion of clock wiring and distribu-
and unterminated. Be aware of this in case you
the unit’s internal clock source. Thus, any Model
tion systems.
intend to operate in both internal and external
1100 MkII operating in internal clock mode can
clock modes. You may need to terminate your
serve as a master clock source when required. The
When the Model 1100 MkII is operating in exter-
distribution cable using a tee adapter up front
internal clock is derived from a low jitter crystal
nal clock mode, the Clock In jack is tied directly
instead of using the last Clock Out jack for that
oscillator and is fully competent as a master
to the Clock Out jack through a metal relay
purpose. Refer to figure 2-3 for illustrations of
clock.
contact. The input impedance is high enough to
the two most commonly used daisy-chaining
daisy-chain up to eight units by looping straight
options.
2.4.3 Local Clock Mastering
In the absence of a suitable external clock
through. The final unit should have a 50 or
75 ohm (as dictated by your distribution cable
2.4.2 Clock Out
source, you can use one Model 1100 MkII as a
impedance) BNC terminator plug inserted in its
As previously described, this jack is directly tied to
clock master and slave everything else to it. For
Clock Out jack to properly terminate the trans-
the Clock In jack to facilitate daisy-chaining mul-
example, to synchronize a group of Model 1100
mission line. If only one unit is connected, then
tiple units to a master clock source when the unit
MkII’s, simply set the first unit to internal clock
simply place the terminator plug on the single
is operating in external clock mode.
mode and all the others to external. Daisy-chain
the Clock Out of the first unit through the clock
unit’s Clock Out jack.
When the Model 1100 MkII is operating in
ins and outs of the remaining units. This way all
digital audio outputs will be locked together to
the first unit’s clock reference. You can also loop
the clock output of the last unit in line to your
Figure 2-3 Daisy Chaining the External Master Clock
Unit 1
In
Out
Unit 2
In
Out
Unit 3
In
Out
digital recorder or workstation, but remember to
terminate the last unit in line.
Unit 4
In
Out
2.5 Audio I/O
Terminator
Both preamplifier channels comprise a similar
back panel arrangement. We’ll describe channel
Clock Source
Tee
&
Terminator
1 in detail then you can apply that to channel 2
Unit 1
In
Out
Unit 2
In
Out
Unit 3
In
Out
Unit 4
In
Out
as well.
2.5.1 Line Output
The phase of the Model 1100 MkII is matched
from input to output, i.e., pin 2 of the output
Clock Source
is of the same signal polarity as pin 2 of the mic
input jack.
Page 2-2
Model 1100 MkII Mic Preamp - Owner’s Manual
output circuit? The answer is a bit technical, and
2.5.3 Mic Input
The transformerless active balanced line output is
for those who really want to know, you can refer
This is where you plug in the microphone. Pins 2
provided through a standard 3-pin XLR jack.
to the end of this section for a full explanation.
and 3 are phantom powered when the phantom
For everyone else, please trust us. It works and it
power is turned on by the front panel button.
The Model 1100 MkII balanced output is a special
works very well.
There is little more to say about this jack. The
type known as “impedance balanced” that elimi-
2.5.2 Nominal Output Reference
input phase is matched to the output phase, i.e.,
nates many of the problems often encountered
This switch simply inserts a 12dB pad into the
pin 2 is positive at both jacks.
when interfacing with a variety of balanced and
output line to reduce the line output level into
2.5.4 Z Compensation Switch
unbalanced studio gear.
the proper range for semi-pro gear typically
Some microphones have an output impedance
connecting through RCA jacks. It converts the
appreciably lower than 150 ohms. The Model
When wiring the Model 1100 MkII to the bal-
professional standard level of +4dBu to the IHF
1100 MkII is quite happy with these mics, except
anced input of other equipment, there is noth-
standard of -10dBV (316mV) . More and more
for the fact that MicLim can have only a limited
ing special to do; just use standard wiring. Your
equipment is moving towards or somewhere
amount of effect. To extend the limiter effective-
equipment will see the Model 1100 MkII’s output
around the IHF operating levels, so be aware
ness, you should switch on the Z Comp to insert
as a perfect balanced source and you will receive
that you may need to set that switch accordingly.
a small amount of resistance into the input cir-
all the hum and noise rejection afforded by a
What you want is a good and proper level into
cuit. This does not reduce the output level of the
balanced line transmission. The fact is, how-
your gear when the Model 1100 MkII’s Head-
microphone nor does it affect the tonality. The
ever, there is signal driven only to pin 2. Pin 3
room Meter is peaking within the proper range.
only tradeoff is in the achievable noise floor at
is returned to ground through an impedance
To learn about the Headroom Meter, look in sec-
high preamp gain (>40dB). With Z Comp on,
equal to pin 2’s output impedance. How, you
tion 1 of this manual.
the noise floor may rise slightly, but typically less
may wonder, can that be equal to a balanced
than 2dB.
While on the subject of noise, one point many
people wonder about is why, when there is no
Figure 2-4 Daisy Chaining the Local Master Clock
microphone plugged into a microphone preamp
(any preamp), is the output noise so much
Internal
Clock
External
Clock
External
Clock
External
Clock
higher? The answer is not that cosmic rays are
Unit 1
Unit 2
Unit 3
Unit 4
something called the “noise resistance”. When
getting into the jack. Actually, it has to do with
the microphone is plugged in, its impedance cre-
In
Out
In
Out
In
Out
In
Out
Terminator
ates a low noise resistance about equal to the
mic’s impedance, for example 150 ohms. Low
resistances generate low noise. When the jack is
open, the many times higher input circuit resis-
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 2-3
Back Panel Features
tances become the dominating noise resistance,
1/4” phone jacks allow you to insert outboard
thus the generated noise is much higher. The
audio processors between the mic preamp and
preamp can’t tell whether a mic is there or not,
the A/D converter as well as between the preamp
it just amplifies whatever signal is there even if it
and the analog line output. The jacks are normally
is just noise.
looped straight through (“normalled”). With a
stereo plug inserted in the return jack , the signal
Some other pointers may help you get lower
will be routed through the outboard equipment.
noise from this preamp. Do not leave an external
The Send jack may be used as an auxiliary output
mic pad on the line then goose up the gain later
without breaking the normal link, but it is not
to get enough level. You should always use the
fully isolated from the preamp and could cause
strongest mic signal you can get and use the
noise or distortion problems if not properly used.
Open Switch Mutes
Mono Phone Plug
Open Switch Mutes
Stereo Phone Plug
Optional
Figure 2-5 Remote Mute Plug Wiring
lowest mic preamp gain possible to keep the level
right. Use the internal 20dB pad only when the
The operating level at the Send jack is approxi-
Whichever causes a mute takes precedence. The
input signal is approaching a line level. You will
mately 0dBu when the preamp is operated with
other cannot cause an unmute.
know when that is necessary if you switch the
typical headroom allowances. It may run hotter if
preamp gain all the way down to 21dB and the
you are pushing the MicLim heavily.
If no phone plug is inserted, then the jack nor-
meter is still pegging.
mals to a closed condition, giving all mute control
You should use the input gain controls of your
to the front panel button. Connections are to the
Don’t expect to be able to run mic cables directly
outboard equipment to match this level rather
tip and sleeve only. You can therefore use either a
along a.c. power cables. You are likely to pick up
than turn down the preamp gain. The return
mono or stereo phone plug but it must be wired
dimmer buzz. If you have to get near a.c. power
audio level should be adjusted on the outboard
as mono, i.e., the stereo “ring” is not used or
cables then lay mic cables crossways to minimize
equipment to match the send level. The front
optionally it can be grounded to the sleeve.
induction. If you get a real pesky hum problem,
panel Headroom Meter indicates the level at the
Send & Return Jack Wiring
Tip = HIGH
Ring = LOW
Return. This is also the A/D converter feedpoint,
2.7 Impedance Balancing and You
so the meter always indicates what the A/D con-
For the technically minded (and maybe just a bit
verter is receiving, thus also indicating the con-
skeptical) reader, here’s how an impedance bal-
verter’s digital audio level.
anced output works. Your balanced input stage
Sleeve = GROUND
looks at the two wires and detects only the poten2.6 Mute Jack
tial (voltage) difference between them. Anything
try a different microphone, cable, channel, etc.
Plugging a switch of any sort into this jack allows
that is the same on the two wires (for all practi-
Nothing beats substitution for tracking down a
you to remotely mute the preamp.
Muting
cal purposes as seen measuring from ground) is
bad component.
affects not only the line output, but also the digi-
called a common mode signal and is cancelled
tal audio. When the switch is open, the preamp
out by the differential amplifier. Figure 2-6 illus-
2.5.4 Insert Jacks (Send - Return)
is muted. A closed switch unmutes. The front
trates how the hum is induced into both wires
Located next to the Line Out XLR connector, these
panel mute button works in parallel with the jack.
equally and therefore is cancelled out.
Page 2-4
Model 1100 MkII Mic Preamp - Owner’s Manual
The fact is that, as long as the hum and noise is
you just drive one line and receive it OK? Well,
one volt to the other wire. Our circuit just drives
induced into both wires equally, the hum will be
that’s really simple. If one wire is always at zero,
positive two volts to the signal wire. The bal-
rejected even if only one of the wires actually has
and the other has a signal, then the difference
anced input circuit in the first case sees positive
the wanted signal on it. That may be a hard fact
between the two wires will be the signal, right?
1 volt minus negative one volt and gets 2 volts.
to swallow, but look at it this way. The reason we
Right.
In the second case, the balanced input stage sees
twist the wires together tightly is to make them
positive two volts minus zero volts and still gets
occupy the same thin line in space on average.
2 volts.
Now, if both wires have the same impedance to
ground at both ends, then they will electrically
Now here’s why impedance balancing is such
appear like two identical antennas in space. Both
a good deal. Let’s say you want to patch the
wires will therefore pick up equal interference
output of the Model 1100 MkII into a line insert
from all surrounding sources. Remember that
when both wires carry identically the same inter-
of your studio console. Some of these inserts
Figure 2-7 Impedance Balanced Line
ference, the interference will be cancelled.
the Model 1100 MkII all you have to do is make
Look at figure 2-8 showing a conventional line
driver where there are two output amplifiers to
drive the balanced line in counter phase through
two equal resistors. The only real difference
between the counter phase driver of figure 2-8
Figure 2-6 Common Noise Rejection Model
are balanced, but most are unbalanced. With
and the impedance balanced driver of figure 2-7
is that to make up for a zero signal on one wire,
To carry the explanation one last step, look at
the impedance balanced driver must double the
figure 2-7. This is the model for an impedance
voltage output to the signal wire.
balanced transmission line. Notice that one wire
sure pin 2 wires to the patch plug tip, and you’ve
got full signal. You don’t lose half the signal
amplitude and with it 6dB of precious preamp
gain. You also don’t lose the 6dB of peak output
headroom you lose with a counter phased output
stage running unbalanced. In effect, the impedance balanced output stage acts a lot like a transformer balanced output but without the sonic
degradation associated with audio transformers.
There is complete information on interfacing the
is fed from an output amplifier through a resistor
impedance balanced output of the Model 1100
while the other goes to ground through an equal
MkII in section 4 of this manual.
resistor. If we consider that the amplifier’s output
is essentially a zero ohm source, then we can consider it to be the same as a ground connection
in terms of impedance loading on the wire. This
makes the circuit of figure 2-7 the same as figure
2-6 for the purpose of noise rejection.
So that explains how an impedance balanced
output gives us full noise rejection, but how can
Figure 2-8 Conventional Balanced Line Driver
In other words, if we need two volts peak output
balanced, a conventional output stage would
drive negative one volt to one wire and positive
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 2-5
Back Panel Features
Model 1100 MkII Back Panel Summary
POWER
|
Digital
Audio
24-Bits
IN
AES/EBU
S/PDIF
INT/EXT
MODE
59887
OUT
80-260V~ 50-60Hz
22 Watts
1
CHASSIS
GROUND
2
OPTICAL
3
4
INT
GEN
Ch2
Line Out
+4dBu
Line & A/D Insert
Return
Send
Mute
OPEN TIP
MUTES
-10dBV
Z Comp
Mic
In
Ch1
OFF
+4dBu
ON
-10dBV
Line Out
Insert
Return
Send
Mute
Z Comp
OPEN CIRCUIT
MUTES
ON
Word
Clock
5
6
7
8
9
10
11
12
13
14
15
16
17
18
Power
1
Universal Power Receptacle. Voltage accepted: 80-265 VAC 50/60Hz
2
Chassis Ground Lug
Digital Audio
3
AES/EBU 24-Bit Digital Audio Output. Channel 1 = LEFT, Channel 2 = RIGHT. Sample Rates: 44.1, 48, 96, 192 KHz
4
S/PDIF and OPTICAL digital audio outputs.
5
Word Clock I/O Jacks. W. C. passes directly through in “external” mode. Output is from internal generator in “internal” mode.
Analog Audio
6
13
Output level noninal “0dBVu” switch. Provides +4dBu or -10dBV nominal reference level.
7
14
Impedance balanced line output XLR jack.
8
15
Insert return jack (balanced/unbalanced).
9
16
Insert send jack (balanced/unbalanced).
10 17
Remote mute jack. Tip to ground switch causes mute when open.
11 18
Z-Compensation switch. Use to extend MicLim range for mics with lower than 150Ω output impedance.
12 19
Microphone input jack.
Page 2-6
Mic
In
OFF
19
Understanding & Using MicLimTM
With MicLim comes a new kind of freedom.
3
Can you imagine if you could have a preamp that wouldn’t be overloaded by an unpredictable live performer? You could freely run
higher gain to pick up the whispers, then sit back and relax while the orator rings out in mellifluous splendor. Ordinarily you’d have
to ride preamp gain to avoid clipping during those loudest moments, but MicLim does it for you instantly. Maybe you don’t deal with
live show performers, but maybe you have dreamed of being able to record whatever you want at hotter levels without any fear of
overload. Learn how this exclusive feature works and how you can use it effectively for your own application.
3.1 How MicLim Works, Basically
that possible since just about anything inserted
Microphone limiters traditionally consist of a mic
between the mic and preamp will add noise or
preamp followed by a limiter circuit. Until MicLim
distortion. With MicLim now available you will
The “optically coupled attenuator” of figure 3-1
was devised, that was the only practical way to do
seldom find it possible to overload the Model
comprises a specially developed optically coupled
it. Everybody is familiar with the clipped overload
1100 MkII mic preamp, even under severe con-
load resistor that is loaded across the mic input
that’s heard when a performer suddenly gets on
ditions. That’s because there is typically at least
line to react against the microphone’s self imped-
the mic too loudly. The compressor/limiter held
16dB of limiting headroom afforded to any
ance, causing a variable loss of level depending
down the P. A. level, but the preamp was clip-
microphone of 150 ohms or higher. Effectively
upon the optocoupler drive current. Drive cur-
ping horribly. Until MicLim, there was no other
that means that, with MicLim, you get 16dB
rent is generated by a very fast peak detector.
choice except to constantly keep a hand on the
more preamp headroom before distortion.
The maximum amount of attenuation available
preamp’s gain knob.
works.
depends upon the microphone’s self impedance,
3.2 How MicLim Works in Detail
but typically at least 16dB is achieved with a stan-
The difference with MicLim is that the limiter
This discussion is especially for the technically
dard 150 ohm microphone. Increased attenuation
works with the microphone itself, before the
astute reader. The rest of you can skip this until
is available for microphones with higher imped-
preamplifier has any chance to clip at all. Patent
later (or forever) if you’re not really all that inter-
ances. That means that MicLim can cleanly limit
pending technology had to be devised to make
ested in the small technical details of how this
microphone levels that are up to an incredible
16dB or more over the normal clipping point of
the preamplifier!
Figure 3-1 Comparing MicLim
The peak detector operates in a feedback arrangement sensing the preamp’s output level to anticiPre
Amp
Optically
Coupled
Attenuator
Peak
Limiter
Conventional Mic Limiter
Still
Heavily
Clipped
pate accurately when any signal is approaching
Pre
Amp
Peak
Detector
the clipping point. A progressive current is sent
No
Clipping
Aphex MicLim Mic Limiter
Aphex Thermionics - Division of Aphex Systems Ltd.
to the optocoupler as soon as the peak threshold
is exceeded. The attack time of this limiter loop is
designed to be fast enough to avoid any discernible clipping.
Considerable inventiveness was
Page 3-1
More Gain - Less Pain
required to devise a stable MicLim control loop
3.3 How To Use MicLim
with such a fast and accurate response. Previously
Within each channel’s control window there is
3.4 MicLim and the Microphone
there have been no successful fast
a push-button for turning on and off the MicLim
MicLim works on all microphones. The use of
attack optocoupler feedback lim-
feature. All you have to do is turn MicLim on
phantom power in no way inhibits the perfor-
iters because the inherent latency
and it will instantly become armed. Nothing will
mance of MicLim.
and memory of Cadmium Sulfide
happen, however, until an audio peak approaches
(CdS) photocells causes oscillatory
clipping: then the limiter will act on the micro-
reactions. Only feed forward optocoupler limit-
phone signal to prevent the peak from reaching
ers have been produced. For MicLim to work in
the clip point. Whenever the limiter hits a peak,
this application, however, it has to operate in the
the red Clip/Limit light in the channel control
feedback configuration.
window will flash.
In addition to inventing a unique new way to
There are no special rules about making MicLim
control an optocoupler element, it was necessary
work for you. The concept is simple: run the
to devise a new kind of CdS optocoupler that can
preamp gain at a point where the peaks indicated
be driven to reach a very low “on” resistance, typ-
on the Headroom Meter only reach the MicLim
ically 10 to 100 times lower than previously avail-
threshold infrequently or unexpectedly.
Photocell
able units. Considerable research and cost was
expended to develop that element. Finally, after
It may be evident to the astute that if one delib-
nearly a year of research, we found success.
erately increased the preamp gain until peaks
frequently limit, one could obtain a very dense
Cadmium Sulfide photocells have been used
output level by bringing the average signal so
in popular “optical” studio compressors for
much closer to the peak ceiling. Although it is
decades. Their complex time constants and opti-
certainly possible to operate MicLim in that fash-
cal “memory” are known to provide unusually
ion, and often the effect can be desirable, we rec-
smooth compression under all types of program
ommend moderation. MicLim was designed to be
material. Although our new technology photo-
fast and unobtrusive for protection against acci-
cell achieves a much greater dynamic range than
dental overloading, especially with voices. You
ever before, it shares in the timing complexity of
may find the fast speed of this limiter too aggres-
its predecessors. That’s one reason why MicLim so
sive for general purpose limiting. Your favorite
gracefully handles both transient and sustained
studio compressor/limiters can still be put to good
limiting.
use. That’s why we include an insert path in the
product.
Page 3-2
Using The Z-Comp Switch
The 1100 MkII has an impedance compensation (Z-Comp) switch near each mic input jack
to compensate for extremely low low mic impedances. and extend MicLim’s effective range. If
you are using powered mics that typically have
50 ohms or less output impedance, you will need
to turn this switch on. There will not be any compromise in sound quality. However, the potential
noise floor may rise by up to a scant 2dB for
preamp gains over 40dB.
When using dynamic mics with impedances typically over 120 ohms, MicLim does not need the
use of the Z-Comp switch. There will be no ill
effect of having it on, however, other than the
slightly increased noise floor as stated above.
3.5 Whenever in Doubt, Use It!
Not sure about the MicLim? Just use it. If you
never need it then it won’t have any effect at all.
But when that big ass peak comes along, Bam!
You’re saved.
Interfacing & Cables
Model 1100 MkII Mic Preamp - Owner’s Manual
4
Because of its impedance balanced output stage, the Model 1100 MkII is unusually easy to interface with balanced and
unbalanced outboard gear. We have subscribed to the “pin-2 high” AES wiring standard so the only problem you should
possibly encounter would be with interfacing cables wired using the older and sometimes still seen “pin-3 high” practice.
This would be a problem mainly when connecting to unbalanced inputs and some of the older console patch bay inserts. If
you should experience problems with hum, buzz, no signal or very low level, check your cables against the diagrams shown
in this section. These diagrams are guaranteed to work.
4.1 The Mic Cable
4.5 Grounding Practices
From
1100 MkII
Connect all 3 wires pin for pin and connect pin 1
To Console,
Recorder, Etc.
on each end to the shell ground as shown.
Over the years there have been various practices
taught on proper grounding. Many studios subscribe to the idea of always grounding shields at
Mic
both ends, or only at the sending end. These
To
1100 MkII
cases both violate the rules we are teaching.
4.4 XLR to Phone Unbalanced
The preferred method to make an unbalanced
cable is shown below. Note the use of balanced
4.2 XLR to XLR Balanced Output
Normally, connect the shield only at the male end.
Connect male connector shell to pin 1. In rare
wire. This technique improves hum rejection over
standard single conductor shielded wire.
cases you may need to connect the drain wire to
From
1100 MkII
the female XLR pin-1 and shell similar to the mic
From
1100 MkII
To Console,
Recorder, Etc.
Many years of experience with world class studios, broadcasters, and live sound companies have
taught Aphex engineers to analyze the grounding
problem scientifically, not shooting-from-the-hip
as often encountered out in the field.
Except for microphone cabling, we have found
compelling reasons why grounding all shields
only at the receiving end of the cable is best in
the majority of circumstances.
To Console,
Recorder, Etc.
The method for using single conductor shielded
cable above. Usually this increases the chances for
ground loop hum and radio interference, how-
wire is shown below. You should use high grade
An analysis of this subject is rather lengthy, so
shielded wire to assure the lowest hum pickup.
we won’t burden you with it here. We ask you
to trust us on this, regardless of what you may
ever.
4.3 XLR to Phone Balanced
For proper phasing, connect the tip to pin 2, not
pin 3. Follow the same rules for the drain (shield)
wire as XLR to XLR, above.
Aphex Thermionics - Division of Aphex Systems Ltd.
From
1100 MkII
To Console,
Recorder, Etc.
have read in technical journals or other equipment manuals.
Does this mean that you have to rewire your whole
studio complex? No, we don’t expect that at all,
and your Model 1100 MkII will probably work
Page 4-1
Interfacing & Cables
very well in any studio wiring scheme because its
insert jacks. If they are not used, then the signal
or unbalanced. The operating level is typically
output is impedance balanced. However, should
should pass through. If the Return jack has a
around 0dBm but may run hotter if you are run-
you experience chronic hum problems around
plug inserted, be sure a signal is getting back to
ning the preamp gain high enough to consistently
your studio, you may want to consider rewiring
the 1100 MkII from the external equipment. In
push MicLim. If you desperately need an auxilliary
with our recommended grounding practice.
the event all of this seems ok, then be sure the
audio output, you can plug into the send jack
output cable is correctly wired. There should be
without breaking the 1100’s signal path. Just be
4.6 Using Purchased Adapters & Cables
no troubles using balanced lines, but if you are
aware that you can potentially introduce noise or
You may sometimes have trouble using the vari-
feeding an unbalanced input, then be sure you
distortion into the A/D converter and the main
ety of connector adapters available through audio
have the 1100 MkII’s output wired as pin-2 hot,
analog output if your interception is not clean
not pin-3.
and free of loading.
pro
shops,
though
most of the time
they will work
extremely
4.8 Matching The Levels
well.
Audio
If you get hum
levels
Inserting a plug into the return jack breaks the
equipment
the
the entry point to the A/D converter and line
output stage. The return input is semi-balanced,
an ohmmeter or continuity tester to be sure they
MkII
both
meaning it accepts a balanced input but is not
are wired according to the diagrams of this sec-
pro
and
operat-
fully balanced electronically. Usually, outboard
ing
levels
by
providing
on
the
back
tion. Some adapters are built with the outdated
“pin-3 hot” practice which will not always work
normal
level
switch
vary
within
1100 MkII’s internal signal path and gives you
same room. The Model 1100
or no signal, use
can
interface
accommodates
consumer
a
equipment used with the 1100 MkII’s insert will
panel.
be located nearby, so hum or buzz will never
with the Model 1100, especially when converting
become a problem.
to an unbalanced output. If you are in the prac-
4.9 Mute Function Wiring
tice of using standard mic cords (which are wired
The rear panel mute jack accepts either a mono
It is imperative that you adjust your external
according to 4.1) for general purpose intercon-
or stereo phone jack. Refer to section 2 on Back
equipment’s output level to return an acceptable
necting of equipment, then the shield ground
Panel Features for wiring diagrams and instruc-
level to the 1100 MkII. The worst problem you
will flow through connecting both pin 1’s. That
tions for use.
can encounter is overdriving the A/D converter
will violate the rules we have been outlining here,
with too much level. You can use the 1100 MkII’s
but don’t despair. You probably won’t experi-
4.10 Insert Jacks
headroom meter to verify. It monitors the signal
ence any problems. If hum or interference does
The 1100 MkII’s rear panel send and return jacks
received at the return jack whether from the
appear, simply try cutting the shield wire from
are intended to allow you to insert a compres-
normal circuit or external equipment. Make sure
the sending end of the cable.
sor or other processing device between the mic
you never drive the peak headroom meter all the
preamp and the A/D converter and line output
way up to 0 from external equipment. When run-
stage.
ning without an insert, the 1100 MkII automati-
4.7 Checking For Output
If, for some reason, you think there is no output
cally protects the A/D converter from overdrive
from the Model 1100 MkII even though signal
The send output is impedance balanced and
and hitting 0 on the meter will cause no harm
is indicated on the Headroom Meter, check the
can therefore be readily wired out as balanced
other than potential distortion.
Page 4-2
Installation Instructions
Model 1100 MkII Mic Preamp - Owner’s Manual
5
5.1 Unpacking
Your Model 1100 MkII was packed carefully at the factory in a container
designed to protect the unit during shipment. Nevertheless, Aphex recommends making a careful inspection of the shipping carton and the
contents for any signs of physical damage.
5.7 Safety Considerations
Table 1: Power Cord Color Codes
USA Color Code
5.2 Damage & Claims
Black = Hot (live)
If damage is evident, do not discard the container
White = Neutral
or packing material. Contact your carrier immediately to file a claim for damages. Customarily,
the carrier requires you, the consignee, to make
Green = Ground
IEC/Continental Color Code
Brown = Hot (live)
all damage claims. It will be helpful to retain the
Blue = Neutral
shipping documents and the waybill number.
Yellow/Green = Ground
To minimize the risk of shock or fire, do not
expose the unit to moisture.
Allow adequate
ventilation for cooling. Do not open the chassis
cover: there are no user serviceable parts inside.
Installation should be performed only by qualified
individuals. It is the installer’s responsibility to
insure his personal safety and the safety of others
in the work area. It is never a good idea to work
alone in the vicinity of high power electrical and
radio frequency equipment.
5.3 Mains Voltage And Fuses
The Model 1100 MkII’s power supply automati-
and connectors. The chassis is designed to be
cally adapts to all a.c. power standards. There is
fully supported by front panel mounting alone.
5.8 Avoiding Hum and Noise
no voltage selector or replaceable fuse.
To avoid cosmetic damage to the panel, use the
All microphone preamplifiers are sensitive devices
cushioned rack screws provided in the shipping
that can pick up hum from the power transform-
kit or the equivalent.
ers of other equipment. You should never install
5.4 Power Cord
the Model 1100 MkII near high current equip-
The Model 1100 MkII uses a standard IEC power
cord set. The appropriate mains plug for each
5.6 Proper Ventilation
ment such as a power amplifier or console power
country is normally shipped with each unit. If you
The Model 1100 MkII is a Class A tube amplifier.
supply. If you are experiencing a hum problem
must install or replace the plug, use the correct
It gets hot in use. Please be sure there is adequate
with a rack mounted installation, try moving
wiring code according to Table 1.
clearance above and below the unit to allow for
the Model 1100 MkII to another rack space or
ventilation. One rack space is usually sufficient.
move other equipment around so you can place
the Model 1100 MkII the farthest away from the
5.5 Mounting In A Rack
The Model 1100 MkII occupies one standard 19
Outside of the rack, do not stack units directly on
in. by 1 3/4 in. rack space (1RU). Chassis depth is
top of one another. Use some type of blocking to
9 inches not including connectors. Allow at least
leave at least an inch of airspace between units.
3.5 inches additional space in back for wiring
noise source.
You should be able to rack mount multiple Model
1100 MkII’s immediately above and below each
other (separated by a space for ventilation) with-
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 5-1
Installation Instructions
out experiencing hum problems.
be in another room on the same breaker. You
5.9 Lightning Protection
The most common ground problems come from
may become lucky and find a pesky hum problem
The Model 1100 MkII is not any more prone to
the a.c. house wiring. The wall outlets of adja-
can be eliminated simply by getting the right two
spike damage than other studio equipment, so
cent walls in a room are normally sourced from
pieces of equipment onto the same outlet and
following good standard practices for lightning
alternate phases of the power distribution panel.
leaving everything else alone.
protection should prove sufficient.
When equipment is plugged into both sets of wall
outlets, there can be a voltage difference between
5.12 Radio Interference (RFI)
If you are in an area that is frequently hit by light-
the neutrals and outlet grounds. That voltage dif-
We designed the Model 1100 MkII to reject radio
ning storms you should use lightning arrestors
ference generates ground current loops through
interference, but if the level of interference gets
on all ac power lines and have local spike protec-
your equipment and consequently through your
strong enough it will break through. If you experi-
tors where equipment is plugged into the power
audio wiring. The best way to stop these prob-
ence TV “sync buzz” or taxicab calls in your audio,
source. In areas where audio cables may be sub-
lems is to reassign the power distribution panel
then you must isolate the source of the RFI. It may
jected to lightning spikes, you should pay close
so all outlets in the same room are from the same
come through the mic cable, but it can also get in
attention to how equipment is grounded making
power phase. If that is not possible, then you
through the power cord or other cables plugged
sure the lightning rod cable does not travel paral-
should consider placing suitable power isolation
into the unit such as the insert send and return
lel to or near to any of your audio wiring.
transformers in your room to isolate the equip-
lines. Try moving the power cord and cabling
ment power from the house wiring.
around to minimize the effect. You may need to
5.10 Preparing Your Cables
install a power line filter if you are located near
Please refer to section 4, Interfacing & Cables, for
When possible, you can plan the house wiring
a broadcast station. Keep all wiring as short as
instructions on proper wiring.
to include insulated ground wires and use hos-
possible.
pital grade outlets that keep the outlet ground
5.11 Overcoming Ground & Hum Problems
isolated from the conduit and box. With all insu-
In studio and live sound venues, it is often a
lated ground wires bonded to the distribution
problem to establish a good ground system. You
panel ground bus, a “star ground” is established
may encounter existing systems where ground-
that eliminates most of the ground loops.
ing was never planned, or you may encounter,
simply, a wrong grounding strategy extensively
In the worst case, when you cannot in any way
implemented.
correct the house wiring problems, then you
may need to distribute power to your equipment
Wherever hum and noise problems are endemic
only from the outlets of one wall by using power
you may be sure the ground system is faulty.
strips. If you do this, be very sure the circuit does
Dealing with that can be treacherous but with
not become overloaded. Check the rating of the
simple understandings you can usually get con-
circuit breaker servicing those outlets and survey
trol.
the total load including any appliances that may
Page 5-2
Model 1100 MkII Mic Preamp - Owner’s Manual
Service & Warranty
6
Aphex Systems supports its customers with spare parts and technical
assistance. You may contact us by phone, fax, and the Internet. Out-ofwarranty repair work should be performed by qualified service personnel
only. We recommend contacting the factory or other authorized service
agency for all repair work.
6.1 Obtaining Service
6.2 Warranty Claims
Units should not be shipped to Aphex for service
All warranty claims must be presented to the
without first obtaining an RMA (returned mate-
Aphex factory customer support department or
rial authorization). Equipment received without
to an authorized dealer, distributor, or agency for
an RMA may be refused for delivery and returned
processing. Unauthorized repairs and modifica-
to the sender. Contact Aphex customer support
tions to the unit may void the warranty at the sole
for an RMA. The RMA number must be placed on
discretion of Aphex Systems.
the outside of the shipping carton to identify the
unit. Please also include within the container a
Qualification for warranty service will be deter-
brief letter describing the defect or problem, your
mined by the unit’s serial number and purchase
name and return shipping address, and a phone
date. Mailing the registration certificate or regis-
number where we may reach you or someone
tering by the internet is recommended to insure
else familiar with the problem.
your warranty rights. In some instances you may
be required to furnish proof of the purchase date
You may contact Aphex customer support
or proof of ownership to obtain warranty ser-
through:
vice. Needless to say, units obtained by fraudulent
Telephone 1-818-767-2929
Fax: 1-818-767-2641
Internet: [email protected]
means or known to be stolen will not be honored.
Outside the USA, contact your local authorized
Aphex distributor or dealer for service. You can
find the appropriate world-wide service agencies
by contacting Aphex Systems by phone, fax, or on
the Internet.
Aphex Thermionics - Division of Aphex Systems Ltd.
Flip the page for warranty information.
Page 6-1
Service & Warranty
Limited Warranty
PERIOD
One year from date of purchase
SCOPE
All defects in workmanship and materials. The following are not covered:
a. Voltage conversions
b. Units on which the serial number has been defaced, modified,or removed
c. Damage or deterioration:
1. Resulting from installation and/or removal of the unit.
2. Resulting from accident, misuse, abuse, neglect, unauthorized product modification or
failure to follow instructions contained in the User’s Manual.
3. Resulting from repair or attempted repair by anyone not authorized by Aphex Systems.
4. Occurring from shipping (claims must be presented to shipper).
WHO IS PROTECTED
This warranty will be enforceable by the original purchaser and by any subsequent owner(s) during the
warranty period, so long as a copy of the original Bill of Sale is submitted whenever warranty service
is required.
WHAT WE WILL PAY FOR
We will pay for all labor and material expenses for covered items. We will pay return shipping charges
if the repairs are covered by the warranty.
LIMITATION OF WARRANTY
No warranty is made, either expressed or implied, as to the merchantability and fitness for any particular purpose. Any and all warranties are limited to the duration of the warranty stated above.
EXCLUSION OF CERTAIN DAMAGES
Aphex Systems’ liability for any defective unit is limited to the repair or replacement of said unit, at
our option, and shall not include damages of any other kind, whether incidental, consequential, or
otherwise.
Some States do not allow limitations on how long an implied warranty lasts and/or do not allow the
exclusion or limitation of incidental or consequential damages, so the above limitations and exclusions
may not apply to you.
This warranty gives you specific legal rights, and you may also have other rights which vary from State
to State.
Page 6-2
Model 1100 MkII Mic Preamp - Owner’s Manual
Specifications
7
These specifications are ascertained mostly through laboratory measurements and are
believed by the manufacturer to be true and accurate. Nevertheless, the manufacturer disclaims any liability for damages, direct or consequential, resulting from errors. It is the sole
responsibility of the user to determine the suitability of the product. Aphex Thermionics
reserves the right to improve or modify its products and all specifications are subject to
change without notice.
Physical
Power
Chassis Size: 19” wide x 9” deep x 1.75 “ high
Power Requirements: 22 Watts
Front Panel Projections: 0.75” max.
Line Voltage Input: 80-260 VAC 50/60Hz
Net Weight: 8.2 lbs.
Power Receptacle: Standard IEC Type
Packed Weight: 10 lbs
Analog Audio Specifications
Environmental
Mute Function: Optical soft switch, greater than 60dB attenuation
Operating Temp: 32-122 deg. F (0-50 deg C)
Low Cut Filter Frequencies: Off, 30, 36, 44, 53 ,63, 77, 92, 111, 134, 162, 195 Hertz
Humidity: 0 to 95% RH, non-condensing
Low Cut Filter Type: Second order butterworth servo cancellation technique
Phantom Voltage: +48VDC
Phantom Build-Out Resistances: 6.81K ohms to pins 2 and 3
Phantom Rise/Fall: Slow ramp up and down, approximately 5 seconds
Preamp Gain: 21dB to 65dB in 4dB steps (presuming an unloaded output and null or unity gain insert)
Output Match Trim: 3-Turn precision potentiometer 0 to -12dB range
Maximum Output Level (MOL): +27dBu unloaded, +25dBu into 600 ohms
Maximum Input Level (MIL): +27dBu minus preamp gain value plus pad value
Equivalent Input Noise: Gain=65dB, input shorted, BW=100Hz to 22KHz, EIN=-135dBu
THD: Output level=+15dBu, 0.09%; output level=+4dBu, 0.05%
IMD: Output level=+15dBu, 0.12%; output level=+4dBu, 0.08%
DIM: Below noise floor at all possible measurement levels
Slew Rate: 22V/uSec
Analog Dynamic Range: 97dB to 101dB depending upon preamp gain setting
Analog Output Noise: -70dBu to -74dBu depending upon preamp gain setting
Analog Signal To Noise Ratio (SNR): 76dB typical, for ref level = +4dBu
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 7-1
Specifications
Digital Audio Specifications
Output Resolution: 24-Bits
Output Sample Rate: 44.1, 48, 88.2, 96, 192 KHz Selectable
Clock Source: Internal Low Jitter Crystal and external word clock
Digital SNR: 98dB typical for ref level = 0dB(fs), 80dB typical for ref level = -18dB(fs)
Dithering: Due to the microphone and preamp noise floor, dithering is inherent. You don’t have to
add any dither when recording at 16 bit resolution.
Front Panel Controls
Preamp Gain (each channel): 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65 dB
Low Cut Frequency (each channel): Off, 30, 36, 44, 53 ,63, 77, 92, 111, 134, 162, 195 Hz
Line Output Calibration (each channel): 3-Turn precision potentiometer 0 to -12dB range
20dB Pad (each channel): on/off
Polarity (each channel): positive/negative
Tone (each channel): on/off
Phantom (each channel): on/off
Mute (each channel): on/off
MicLim™ (each channel): on/off
Clock Source: Internal/External
Internal Rate: 44.1/48/88.2/96/192 KHz
Power: on/off
Rear Panel Controls
Line Output Normal: +4dBu/-10dBV switch
Z Compensation: On/Off
Rear Panel Connectors
CH1&2 Line Output, XLR-3M
CH1&2 Insert Send, TRS Phone Jack
CH1&2 Insert Return, TRS Phone Jack
CH1&2 Mic Input, XLR-3F
CH1&2 Mute, TS Phone Jack
Word Clock In, BNC
Word Clock Out, BNC
Power Receptacle, IEC Standard
Page 7-2
Tube Topics
Model 1100 MkII Mic Preamp - Owner’s Manual
8
The Model 1100 MkII contains two dual triode tubes, one per channel. One triode of each tube is used
in the low noise second stage and the other is used in the impedance balanced output stage. Thanks
to the Aphex exclusive Reflected Plate Amplifier (RPA) circuits, you can substitute different tube types
with equal success.
Representative Tubes
come into scarce supply such as the omnipresent
Bear in mind, as already stated, the difference
12AX7. To accommodate as many tube types as
between tubes will be sonically very subtle, not
possible, we supplied a tube filament switch for 6
as great as heard when substituting tube types
and 12 volts. This allows you to put many 6 or 12
in other equipment using conventional circuitry.
volt types into the same socket.
For that reason, we expect that future tube
8.1 Tube Choice
6V
12V
replacement will not be an agonizing judgment
The design of the Model 1100 MkII centered
call. Simply replace with any suitable type that
around a Russian tube called the 6N1P having a
is currently available. Of course, we recommend
6 volt filament. We found that the more readily
attempting to obtain the original type if possible.
available American made 6DJ8 performs identi-
We maintain a stock of qualified tubes at the
cally in our listening tests and for all measure-
factory, and we recommend letting us supply
ments. Therefore we reserve the right to ship
units tubed with either type as their availability
Figure 9-1 Filament Voltage Switch
shall dictate.
Should you decide to experiment with different
tube types, you will find we have made that very
convenient for you. There may be differences in
replacements to you if ever needed.
8.4 Suitable Tube Types
Set this switch as appropriate when replacing or
exchanging tubes.
We prefer not to comment upon the relative
merits or sonic differences between tubes since
those judgments are mainly subjective. Many
Having the switch in the wrong position will
simply result in no light-up but will cause no
people will probably detect no difference at all.
sound between different types and we feel some
people will select a favorite. We invite you to
harm.
merits as technically operable in the circuit.
experiment with tubes and tell us about your
experience.
8.2 Filament Voltage
From a practical view, it only made sense during
the design phase to accommodate as many tube
types as possible in the Model 1100. The future
supply of tubes is not completely certain, and
8.3 Consideration of Tube Types
We selected the 6N1P and 6DJ8 types because
of their low noise, rugged construction, and low
microphonics. They are readily available in premium quality from new old stock and not very
popular for audio equipment making their continuing supply well assured.
we have recently seen some high demand tubes
Aphex Thermionics - Division of Aphex Systems Ltd.
We therefore offer these suggestions only on their
List 1: Known To Work
6DJ8, 6N1P, 12AT7, 12AU7, 12AX7, 5751,
5814A, 6679, 6680, 7025
List 2: Believed To Work
6BC8, 6BK7, 6BS8, 6BX8, 6BZ7, 6BZ8, 6FW8,
12AV7, 12AY7, 12AZ7, 12BZ7, 12DM7, 12DW7,
12U7, 6072, 6211, 6679, 6829, 6851, 6955,
Page 8-1
Tube Topics
7247, 7318, 7728, 7729
The answer is that the Aphex patented Reflected
8.5 Tube Life
Plate Amplifier takes full advantage of thermionic
It is unlikely you will ever have to replace the
tube amplification at a relatively low plate volt-
tubes in your Model 1100 MkII. Here’s why.
age and current. With the RPA, the plate voltage
Tube Base Diagrams
is held essentially constant while the low plate
The Model 1100 MkII regulates the filament
current is extracted, reflected, and magnified by
supply voltage very tightly to about 20% less than
a linear current mirror. It is the reflected plate cur-
the tube rating. This extends the filament life
rent that generates the output voltage. The tube
indefinitely. More than sufficient cathodic emis-
runs much cooler yet still generates the tradi-
sion is still generated for use by the RPA circuits.
tional transconductance curve. In contrast, tradi-
The only failure mechanism will be expansion and
tional tube stages have to operate at a high plate
contraction fatigue when the power is switched
voltage to permit a useful signal swing to develop
on and off. There will be a small percentage of
as a function of the tube’s plate resistance, plate
tubes that fail earlier but most will survive indefi-
load resistor, and transconductance.
12 Volt Tubes
nitely.
With the RPA, the tube’s control grid receives the
Another design feature that extends the tube life
input signal and controls the electron flow by the
is the very low plate dissipation of an RPA circuit.
law of the tube’s transconductance curve just like
Virtually all the heat generated by the tube is from
a traditional stage. The tube’s dynamics still exist,
the filament temperature alone. In conventional
giving us the great tube sound from a much more
circuits, the plate power dissipation is consider-
efficient circuit.
able and that is what eventually causes a weak or
gassy tube. In our RPA circuits, a well manufac-
8.6 Relevant Base Diagrams
tured tube will probably never become weak or
The tubes that work in the Model 1100 MkII
gassy even in 100 years of use.
follow the industry standard base diagrams 9A
and 9AJ. You will see that the only difference
Strangely, a benefit of how gracefully the RPA
is the filament center tap at pin 9. We use the
method embraces the tube function is that a
center tap provided on 12 volt tubes to allow
tube testing too weak for a conventional circuit
their use with a 6 volt filament supply. When you
will probably work just fine in the Model 1100
change the filament switch from 6 to 12 volts,
MkII unless it has somehow developed excessive
the two filament halves are placed in parallel, cre-
noise. You are probably asking, “How is that
ating a 6 volt filament. This is a widely accepted
possible?”
practice having no deleterious effects.
Page 8-2
6 Volt Tubes
White Paper
More Gain. No Pain.
9
Synopsis: An extraordinary mic preamp combining new design philosophies allows
ever, shifts the problem of overload distortion to the following stage. That is why it
you to safely run at higher gains without the pains of noise and overload distortion.
is quite common to see a compressor or a limiter in between the preamplifier and
the following stage.
I. The Value of a Wide Dynamic Range
Consider dynamic range as a window. The top is the maximum peak level and the
The problem of noise build up, however, becomes quite apparent. As mentioned
bottom is the noise floor. These are physical limits and they exist in the both the
above, any gain taken on the signal after the preamplifier increases the noise from
analog and the digital worlds. Ideally, the window is wide enough to accommodate
the preamplifier by the amount of gain in the second stage. In addition, the noise of
the highest input level without any overload distortion while adding as little noise
the second stage itself combines with the input noise. For example, if the noise of
as possible to the signal. Wide dynamic range for a microphone preamplifier is par-
the preamplifier is -60dBu and the noise of the following stage is -60dBu with 10dB
ticularly important inasmuch as the level of the input into the microphone can vary
of gain, the noise at the output of the second stage will be -57dB. Note: When two
greatly. In order to accommodate these variations the gain in the preamplifier is set
equal non-correlated noise sources are summed the noise is increased by 3dB.
so there is no overload distortion on the highest peaks. The difference between that
nominal gain setting and the maximum peak level is headroom. Setting the gain too
When a compressor is used, it brings up the lower level signals (including noise) by
low in the preamplifier, however, will require gain in a later stage. That means that
whatever make up gain is set in the compressor. Adding to the noise in the output
any increase in gain in the later stage will also boost the noise from the preampli-
of the compressor is the noise of the compressor itself.
fier. Obviously, the lower the noise floor in the preamplifier, the lower the noise on
the final output. If the output of the preamplifier is digitized at too low a level, the
As you can see, noise builds up very quickly if the dynamic range of each gain stage
conversion will have low resolution. One bit represents 6dB of dynamic range in the
is not maximized. That is why it is essential to choose the equipment with the widest
digital domain. If the input is converted at -24dBfs the resolution will be four bits
possible dynamic range and use that equipment properly. And the most important
less than full resolution. Once the signal is converted there is no way to increase the
gain stage is the first gain stage- the microphone preamplifier.
resolution.
III. Determining the EIN and the Dynamic Range of a Microphone Preamplifier
II. Setting Up a Conventional Microphone Preamplifier
A very important specification for any microphone preamplifier is the equivalent
A microphone is almost always used to pick up a live acoustic source, e.g.- a voice,
input noise (EIN). The noise is measured with the input shorted and at a specific
an instrument, or ambient sound. Since level variations from these sources can be
gain. That figure is added to the gain. For example, a preamplifier with 60dB of gain
quite high, it is imperative that a great amount of headroom be set in the conven-
has a noise floor of -68dBu. Adding the noise to the gain gives that circuit an EIN
tional preamplifier. This reduces the chances that the preamplifier will be overloaded
of -128dBu.
due to an unexpected increase in input level, but the nominal output level will consequently be very low.
The dynamic range of that preamplifier at that gain setting is computed by adding
the noise and the maximum output level. For example, if the preamplifier has a
That low output level will have to be boosted in a following gain stage. This, how-
maximum output level of +27dBu the dynamic range of the preamplifier is 95dB
(68 + 27) at that gain setting.
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 9-1
White Paper
IV. Designing the Aphex Model 1100 MkII Tube Microphone Preamplifier
need for the MicLim to trigger earlier than necessary from excessive low frequency
1. Noise
energy.
One of the primary design goals of the Model 1100 MkII was to have as wide a
dynamic range as possible. Several key inventions combined with a no-compromise
c. Drift Stabilized A/D Converter
selection of components (see below) create a microphone preamplifier with unprec-
Conventional analog to digital converters utilize high pass filters in the digital
edented performance. The EIN with 65dB of gain is an incredible -135dBu. That
domain to block any DC generated in the conversion process or already in input
means that the Model 1100 MkII adds less that 1dB of noise to the natural self noise
signal. While this is effective in eliminating the DC, it requires extra headroom in the
of a 150 ohm microphone. The worst case dynamic range is 97dB and is a high as
converter to allow for the DC offset. The patented drift stabilized A/D eliminates the
101dB. But low noise is only part of the story.
DC offset in the analog domain so that the input peaks of both polarities can reach
the true maximum level. Since there is no high pass filter in the digital domain, all
2. 20dB extra headroom
ringing and time delays from that filter are also eliminated.
As described above, a conventional preamplifier must be set for sufficient headroom
in order to avoid overload. The Model 1100 MkII has two inventions that actually
3. Other Features
provide up to 20dB of extra input headroom so that it is virtually impossible to over-
a. Full Featured AES/EBU Digital Audio Output
load the preamplifier. A third invention does not directly increase headroom, but
AES/EBU XLR output is standard. Clock synchronization options allow for locking to
maximizes available headroom in the digital domain.
standard "word clock" received at the standard BNC clock input jack. Internal clock
options provide low jitter 44.1, 48, 88.2, 96, and 192kHz sample rates. When a unit
a. MicLim
is set for internal clock, its internal word clock reference is sent to the rear panel
The first invention is the Microphone Limiter (MicLim), first used on the Model 1788.
word clock BNC output jack to serve as clock reference to other units. When the unit
It comprises a custom designed optical attenuator directly on the microphone input
is set for an external clock reference, the clock input BNC jack is directly tied to the
line. It smoothly limits the microphone output signal prior to the preamplification by
output clock BNC jack for easy daisy-chaining of model 1100 MkII units from the
up to 20dB. The peak limit detector is located after the preamplifier input stage and
master clock source. All digital audio settings are controlled and displayed on the
feeds a control current back to the attenuator so that the input signal remains below
front panel.
clipping. MicLim has no effect whatsoever on the input signal until the preamplifier's
output approaches clipping.
The A/D converter receives signal from the soft mute stage just prior to the analog
output level control and triode output stage. This means you can use both the digital
b. Low Frequency Cancellation Filter (LoCaf)
and analog outputs independently, with full and proper calibration of both regard-
The second invention is a tunable low frequency cancellation filter (LoCaf). It is a
less of the analog output level settings. The analog and digital outputs respond
second order (12dB/octave) modified Butterworth filter meshed into the nodal inter-
equally to the input gain, low-cut filter, and all front-end conditioning effects.
sections of the first and second amplifying stages in a servo configuration. The servo
affects only frequencies below the corner frequency, thus it contributes nothing to
d. Bifurcated 20dB Pad and Phase Reverse
the audible signal. Imposing the servo filter in such a manner gives the preamplifier
Many preamplifiers, even the more expensive models, switch microphone level
about 20dB more overload headroom in the low cut range as compared to conven-
signals directly through switch contacts. It is well known that even the best quality
tional techniques. Additionally, the added low frequency headroom eliminates the
switches will eventually suffer from dry contact diode effects causing noise and dis-
Page 9-2
Model 1100 MkII Mic Preamp - Owner’s Manual
tortion. The Model 1100 MkII uses high-grade, bifurcated (milti-finger) gold contact
circuit un-mutes. This facilitates the convenient use of mute controls such as floor
relays which do not develop these problems. The Gain and Low Cut controls are
mat switches (step on to un-mute) and musician's footswitches.
sealed gold contact rotary witches.
j. Internal Switchmode Low Noise Power Supply
e. Precision Three Turn Output Level Attenuator
One of the technology improvements comprising the model 1100 MkII is a highly
In order to match the analog output of the model 1100 MkII to the user's system
efficient switchmode/linear hybrid power supply. Switchmode design is used to
level, the output gain is adjustable from zero dB (max gain) to -14dB. The user will
very efficiently convert the a.c. primary power into secondary d.c. voltages. Great
appreciate the smoothness and precision afforded by the front panel 3-turn high-
effort was made to eliminate switching noise and we phenomenally succeeded. All
grade potentiometer adjustment.
preamp supply voltages are further stabilized through linear regulators to maintain
the highest audio performance. The tube filaments are run from regulated d.c. for
f. 48-volt Phantom Power Circuit
extremely long life. The whole power supply is magnetically shielded. With this new
Very slow rise and fall of the phantom voltage is used to eliminate turn-on and turn-
power supply design, the 1100 MkII is lighter, runs cooler, and performs better.
off thumps. Industry standard resistances of 6.81 K-Ohms supply the highly filtered
48-volt source to pin 2 and pin 3 through a voltage ramping active buffer. The phan-
V. Sound Quality by Design
tom powering system can withstand a short circuit to ground on both microphone
While specifications and functions are important, the most important characteristic
jacks indefinitely.
of a piece of audio gear, particularly a microphone preamplifier, is how it sounds.
The sound of the Model 1100 MkII is clean, clear, present, open and solid. It is
g. Series-Shunt, Optical Soft Mute Attenuator
extraordinarily detailed and spacious. The low end stands up without any muddiness
The second-stage output signal passes through a specialized series-shunt optocou-
and the high end is very extended without any harshness.
pler circuit to provide a soft mute while introducing no distortion or noise.
This sound is achieved through the use of proprietary designs, careful engineering
h. Front Panel Peak Headroom Meter and Function Controls
and the highest quality components. It is a combination of Class A discrete compo-
Each channel contains a 20-segment LED headroom meter, making it easy to opti-
nents and patented tube circuitry as briefly described below.
mize the performance of the preamplifier. The headroom meter is calibrated in decibels below clipping, where 0dB is the analog clipping point. This coincides with
1. Ultra Low Noise, Transformerless, Discrete Class A, Bipolar PNP, Variable Gain
the A/D converter's maximum input level, so the headroom meter also indicates the
Differential Input Stage
digital audio level accurately. Each channel contains its own independent controls
No outer feedback is used, thus eliminating the possibility of any dynamic interac-
over every function.
tion with the microphone's self-impedance. The input impedance remains passive,
providing an optimal load for any microphone. The solid state, class-A PNP bipolar
i. Rear Panel Mute Jack
design achieves high common-mode rejection with extremely low noise, wide band-
The mute function may be activated by the front panel push-button, or by a remote
width, and low distortion at all gain settings. Robust input overload protection
switch plugged into the mute jack. In the absence of a phone plug, the mute jack
assures that all performance features will be retained indefinitely. The gain is adjust-
serves as a closed circuit, and only the front panel push-button has control. In the
able in 4dB precision steps from 21 to 65dB.
presence of a phone plug, an open circuit mutes the preamplifier while a closed
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 9-3
White Paper
2. Tube, Discrete Class A Differential Second Stage
The unique, Aphex patented, "Reflected Plate Amplifier" tube circuit is configured
as a single-triode differential opamp to further enhance the preamplifier's common
mode rejection. This novel circuit topology subtly imparts the tube's sonic warmth
and character while retaining relatively long and stable operating life.
3. Tube, Discrete Class A Output Stage
An Aphex patented "Reflected Plate Amplifier" tube circuit is configured as a low
distortion triode buffer having a very low output impedance and high output current
drive. The maximum output level of +27dBu meets the needs of any professional
application. Matched-impedance balancing assures peak performance whether
driving balanced or unbalanced lines. A rear panel switch is assigned to insert a
12dB low impedance pad into the output line for systems based on IHF (semi-pro)
operating levels. Rear panel XLR and quarter-inch phone jacks are both provided for
balanced output.
VI. Summary
Every circuit and component that went into the Model 1100 MkII was studied and
scrutinized for optimum performance. The result of the innovations and careful
engineering is a uniquely excellent preamplifier.
Page 9-4
Appendix A
Word Clock Cabling
10
Transmission Systems
There are basically two systems in use for distrib-
signals. Industry has also adopted 75Ω for the
to take into account when measuring or specify-
uting word clock by coaxial lines: 75Ω matched,
lead-in and internal house wiring for cable TV.
ing word clock output levels.
and unmatched with unspecified impedance. We
More recently, the AES adopted, by standard
A slight revision of figure 1 is shown in figure
sometimes call the unmatched method “brute
AES3-ID 2001, 75Ω cable for distribution of digi-
2. The internal termination resistor is replaced
force”. You’ll see why as you go through this
tal audio.
by a “loop-through” jack and an external load
adapter. The principle is the same, but the loop-
tutorial.
Matched Coaxial Transmission
This is by far the better way to send pulse shaped
waveforms over a long distance. Coaxial cable
is manufactured to several standard impedance
characteristics. The most common are 50 and 75
ohms (Ω). 50Ω cable has traditionally been popular around radio transmission apparatus, but television has long adopted 75Ω cable to carry video
Figure 1
Principle of 75Ω Matched Transmission
Clock
Transmitter
For practical purposes, transmission line theory
through jack allows daisy-chaining of many clock
need not be studied at great length. The basic
recipients from a single clock source over a
idea is very simple. To create a matched trans-
single clock cable. As you could imagine, this can
mission line, you terminate both ends of the line
greatly simplify clock distribution among com-
by a resistance equal to the line’s own character-
patible equipment.
istic impedance.
This configuration causes all the power launched
from the sending end to be absorbed at the
receiving end. The useful bandwidth of the line is
maximized under these conditions, and the pulse
75Ω Coax Line
75Ω
Load
Adapter
Clock
Transmitter
mission lines have losses, especially at high frelength, depending on the cable’s quality, cable
equalization may be required to recover additional bandwith. Nevertheless, a general rule is
Clock
Receiver
that matched transmission lines will always have
better bandwidth and less jitter than unmatched
75Ω
Coax
Line
lines of equal length.
75Ω
Load
Termination
Loop-Through Jack
undergo some degradation. All matched transquencies. When the cable exceeds a certain
1Vp-p With
Terminated Load
75Ω Clock
Receiver
Input Jack
waveform is best preserved.
That is not to say the pulse waveform won’t
2Vp-p With
Unterminated Load
75Ω
Source
Termination
75Ω
Source
Termination
Figure 2
75Ω Transmission Loop-Through Jacks
It should be noted from figure 1 that when a
matching line driver is not loaded by the line, its
output voltage rises by double. This is something
Aphex Thermionics - Division of Aphex Systems Ltd.
Daisy-Chain Example
Figure 3 expands upon figure 2 to show the principle of daisy-chaining a matched transmission.
Note that only the last unit in a daisy-chain needs
a load adapter to properly terminate the 75Ω
line.
Unmatched Lines
In the simplest context, an unmatched line is one
that is not terminated in its characteristic impedance. In most cases, unmatched word clock lines
Page 10-1
Appendix A: Word Clock Cabling
are driven by a low output impedance voltage
Brute Force Clocking
clock with almost no loading from the 1100 MkII.
driver and loaded by a high impedance receiver.
It is an unfortunate fact that transmission line
If using a 75Ω, 1Vp-p clock system, then you can
techniques for word clock have not been imple-
daisy-chain the W.C. input to additional 1100
A length of coax driven by a brute forced output
mented in much of the digital audio equipment
MkII’s or other equipment. If the 1100 MkII is the
driver will cause edge ringing and wave distortion
presently available. This leads to real clocking
last unit in line, the best option for terminating
of the clock pulses. If the length is too long, the
compatibility problems in today’s studios. Obvi-
the line as shown in figure 5.
distortion can cause clock jitter. It is important to
ous problems are usually seen as “no lock” but
minimize the cable length.
less obvious is sound degrading jitter.
Clocking The 1100 MkII With Brute Force
Not knowing what the 1100 MkII’s word clock
Figure 3
Transmission Daisy-Chain
Hi-Z Clock Receiver
Input Jack
75Ω Coax Feed
Though ugly from an engineering viewpoint, the
input may be driven by, we made it automatically
only solution is such cases is to apply unmatched
accept the brute force voltage levels.
transmission lines as best as one can and then rely
on “brute force” clocking to hold it all together.
With brute force clocking, 4-5Vp-p clock pulses
Figure 4
Principle of Unmatched Lines
And Brute Force Clocking
Brute Force
Clock Transmitter
are fed out from a low impedance line driver
First
Device
Loop-Through Jack
with no intention of impedance matching the
75Ω Coax
coaxial cable. Daisy chaining is not usually possible because the magnitude of jitter rapidly rises.
Hi-Z Clock Receiver
Input Jack
N
Devices
5Vp-p Output Level
Open Circuit
<10Ω
Source
Impedance
Still 5Vp-p But With Ringing
(Worse With Longer Cable)
Very short cable runs are necessary. Every piece of
gear gets a separately driven feed, and no terminating load is used. Figure 4 above illustrates the
Clock Receiver
Brute Force
Clock Transmitter
Brute Force clock principle. We have found that
75Ω Coax
Loop-Through Jack
gler and regenerator/driver boxes actually source
out brute force clock as their hedge against
Hi-Z Clock Receiver
Input Jack
Last
Device
75Ω
Load
Adapter
many of the commercially available clock detan-
Loop-Through Jack
Coax
Line
unknown studio equipment characteristics.
Clocking The 1100 MkII With 75Ω Matched
Lines
When accepting brute force clock, do not
First, you need to be aware that when switched
install a termination adapter - it would be
to the external clock (W.C.) mode, the 1100 MkII
of no benefit. When the driving source is
automatically connects the word clock input jack
not matched to the line impedance, then
to the word clock output jack through a metal
adding a load impedance will not improve
relay contact. This permits direct feed-through of
Page 10-2
<10Ω
Source
Impedance
Model 1100 MkII Mic Preamp - Owner’s Manual
the transmission characteristics.
Maximum Brute Force cable length depends
on several factors, but you probably shouldn’t
attempt distances greater than 4 feet.
Figure 5
End-of-Line Termination
Last Unit In Line
Tee
75Ω
Terminator
NOTE ON CONVERTING TO A
MATCHED LINE: because of the
1100 MkII’s automatic input level
adaptation, you can convert a brute
forced clock source into a workable
matched line by inserting an in-line
75Ω, 10dB pad at the sending
end of the cable, and then installing a 75Ω termination adapter at
the receiving end. This may reduce
or eliminate jitter problems when the
word clock distribution cable is of
appreciable length.
Typical 75Ω Attenuator
Aphex Thermionics - Division of Aphex Systems Ltd.
Page 10-3
Model 1100 MkII Mic Preamp - Owner’s Manual
Notes
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