Artemis Car Amplifier LA 1 User Manual

Artemis Labs LA-1  
Operating Manual  
INTRODUCTION & SPECIFICATIONS  
The Artemis Labs LA-1 Line Amplifier combines the clean, accurate sound of a purist single-triode line  
amplifier with the convenience and reliability of a solid, well-built product. Special care is taken with all  
parts in the audio path, from the Goldpoint™ stepped attenuator to the Swedish output chokes by Lundahl.  
All aspects of the design were done by John Atwood of One Electron™.  
The LA-1 is conservatively designed and is built to last for many years. The only maintenance needed is  
the occasional replacement of tubes, and even this has been reduced by the use of Cool-Swap™ technology.  
Please read this entire user’s manual so that you can understand all the features and get the most from the  
LA-1. The Warranty is on a separate card. Read it and send it in to get full warranty coverage.  
SPECIFICATIONS:  
Maximum Gain (47K load, 1KHz): 12dB +/- 1.5dB  
Frequency Response & Distortion:  
Worst-case Loading (8K ohms, 1000pF):  
Worst-case settings (Input Attenuator and Balance both at -6dB):  
Frequency Response: < 10Hz – 32KHz +/- 0.5dB  
Average settings (Input Attenuator at -16dB, Balance at -1.5dB):  
Frequency Response: < 10Hz – 40KHz +/- 0.5dB  
THD+N at 1KHz, 2Vrms output: < 0.12%  
Average Loading (47K ohms, 250pF):  
Worst-case settings (Input Attenuator and Balance both at -6dB):  
Frequency Response: < 10Hz – 45KHz +/- 0.5dB  
Average settings (Input Attenuator at -16dB, Balance at -1.5dB):  
Frequency Response: < 10Hz – 60KHz +/- 0.5dB  
THD+N at 1KHz, 2Vrms output: < 0.05%  
Maximum output voltage (47K load, 1KHz, 0.5% THD): 40Vrms  
Output Noise (grounded input, 47K load, rms detector):  
22Hz - 30KHz: < -82dB below 2Vrms output  
“A-weighted”: < -85dB below 2Vrms output  
Crosstalk:  
1KHz: < -75dB  
20KHz: < -45dB  
Effective Output Impedance: approx. 750 ohms (1KHz)  
Input Impedance: 30K to 50K ohms, depending on Input Attenuator and Balance control settings.  
Mains Voltage: Wired at factory for one of the following voltages: 100, 110, 120, 220, 230, 240V, 50 to 60Hz.  
Power Consumption (rms) : 30 Watts nominal, 38 Watts maximum.  
Size: 6 ½" (165 mm) Height, 8 ½" (216 mm) Width, 14 58" (371 mm) Depth  
Mass: 22 lbs. (10Kg)  
Note: These specifications are subject to change at any time.  
Page 3  
FRONT PANEL  
Input Attenuator  
Mono  
Power  
Indicator  
Indicator  
Mono Switch  
Power Switch  
Input  
Selector  
Left Balance  
Right Balance  
The Power Switch applies power when flipped up. The Power Indicator will glow red while  
the tubes warm up, then after approximately 40 seconds, will glow green. About 4 second after  
that a faint click will be heard, indicating the muting relay turning off. The LA-1 is now ready  
for use. If the power is removed, even briefly, then restored, the warm-up time delay process  
will start over again.  
The Input Attenuator serves as the “Volume Control. In the full clockwise position, the  
output of the LA-1 is at a maximum. Each step counter-clockwise reduces the level to the  
amount (in decibels) marked on the front panel. At the full counter-clockwise position, the  
output is reduced to zero.  
The Input Selector chooses which of the five stereo inputs on the rear panel is used.  
The Right Balance and Left Balance controls provide an infinite-resolution adjustment of the  
right and left channels, respectively. They should normally be set in their fully clockwise position.  
If signal level balancing is required, the louder channel can be reduced by turning its balance  
control counter-clockwise.  
The Mono Switch, when flipped up, merges the two channels after the Input Attenuator but  
before the balance controls. The Mono Indicator glows yellow when the Mono Switch is on.  
Page 4  
REAR PANEL  
Voltage Rating  
Fuse  
IEC Power  
Connector  
Ground  
Terminal  
Right Inputs  
Left Inputs  
Right Outputs  
Left Outputs  
Outputs 1 and 2  
Inputs 1 through 5  
Make sure that the Voltage Rating of your LA-1 matches the power mains voltage at your loca-  
tion. The voltage can be changed by internal rewiring, which can be done by Artemis Labs or  
by a qualified technician. The Fuse is a 1" x 1¼" “3AG” Slow-blow type. Its value is given on  
the Voltage Rating sticker.  
A power cord is supplied with each unit. If the mains plug does not match your socket, con-  
tact your dealer to exchange it for the correct type. The power cord plugs into the IEC Power  
Connector. If the power cord is frayed or damaged, replace it with a new one. Use only power  
cords that meet the safety standards of your location.  
The Ground Terminal is used to connect the chassis of the LA-1 to other equipment in your  
system to help minimize hum and noise. Experiment with different connections for the best  
results.  
Signals are brought into the LA-1 through Inputs 1 through 5. The Right Inputs are on the  
top and the Left Inputs are on the bottom. The input number corresponds to the number on  
the Input Selector on the front panel.  
There are two pairs of outputs: Outputs 1 and 2. These are essentially in parallel, separated by  
low-value resistors. This allows the preamp outputs to drive another device in addition to the  
power amplifier, such as a digital processor, subwoofer, etc. The Right Outputs are on top and  
the Left Outputs are on the bottom.  
Page 5  
TUBES  
The LA-1 uses Cool-Swap™ technology to let  
the tubes run cooler and provide a built-in  
spare.  
Many dual triodes, including the 5687, have  
split heaters, allowing them to run from either  
6.3V or 12.6V. This heater set-up allows only  
one of the two triodes to be heated. In the  
Cool-swap configuration, one tube is used  
for each channel, each with one half heated.  
The right channel uses triode #1 and the left  
channel uses triode #2. Since the main failure  
mode in modern tubes is cathode wear-out,  
the unused triode in each tube is essentially a  
spare. By swapping the two tubes, the unused  
spare is brought into use. Thus Cool-Swap  
effectively doubles tube life, and since only  
half the tube is heated, the tube runs cooler,  
an important factor in the normally hot-run-  
ning 5687. A side benefit is reduced cross-talk  
between channels, since each channel has its  
own tube.  
A
B
No  
No  
Connection  
Connection  
6 Volts  
6 Volts  
Left  
Right  
B
A
Cool-  
Swap  
TM  
No  
No  
Connection  
Connection  
6 Volts  
6 Volts  
One effect of the Cool-Swap technology is that  
only one half of each tube will be “lit-up. This  
is normal in the LA-1.  
American 5687 tube, originally developed by Tung-Sol (the  
same manufacturer that developed the 5881 and 6550). This  
tube is no longer manufactured, but large quantities are still  
available as “N.O.S.(New Old Stock). The 5687 was used in  
industrial and military equipment and as a result, nearly all  
tubes available are built to higher quality and reliability stan-  
dards than tubes for consumer equipment. The 5687WA and  
5687WB are later versions with tighter control of their charac-  
teristics.  
How often you have to swap tubes, or replace  
them with new tubes if already swapped,  
depends on how you use the LA-1. The  
5687WB tubes supplied with the LA-1 should  
last several thousand hours of active use. Signs  
that the tubes are weak include: less gain than  
usual, a “flabby” sound, excess noise, and a  
weak reading on a tube tester.  
Although not identical in characteristics to the 5687, the fol-  
lowing tubes can also be used in the LA-1: 6900, 7044, 7119,  
and E182CC. If you try these, listen carefully to the sound,  
and only use the types that sound the best. The LA-1 was  
optimized for the 5687, however.  
Since the LA-1 uses a soft heater turn-on and  
delayed application of high voltage, tube life-  
time is not degraded by power cycling. Thus,  
it is recommended that the LA-1 not be left  
on all the time, but only be turned-on when  
needed, with perhaps a one-half hour warm-  
up time, if desired.  
Warning: Do not use any other types of dual triodes. The  
pin connections of all other dual triodes are different and  
damage to both the tube and the LA-1 will occur if used.  
Artemis Labs is not responsible for damage caused by using  
incorrect tubes!  
Tube Types: The tube manufacturer and tube  
type will have an effect on the sound of audio  
equipment. The LA-1 was designed for the  
Page 6  
TECHNICAL FEATURES  
+160V  
+250V  
Power  
Right  
Inputs  
Lundahl  
500H  
choke  
Input  
Selector  
Power Supply  
(unregulated)  
5
Right  
Outputs  
V1  
1/2 5687  
1
Features:  
4
3
2
1
1
- Electrostatically-  
shielded transformer  
- High-speed rectifiers  
2
Right  
Balance  
Line voltages  
available:  
100V,  
Volume  
3
2
- High-temperature  
(105°C) electrolytics  
110V,  
120V,  
50K  
stepped  
atten.  
220V,  
230V,  
100K  
lin  
240V  
50 or 60Hz  
V1  
V2  
5
5
+160V  
8
8
4
4
Mono  
Left  
Inputs  
+6V  
Lundahl  
500H  
choke  
5
Left  
Outputs  
Artemis Labs  
+250V  
V2  
1/2 5687  
40 second  
Delay  
9
4
3
2
1
1
LA-1 Line Amplifier  
7
Left  
Balance  
Simplified Schematic  
+163V reference  
6
2
50K  
stepped  
atten.  
Muting relay  
control  
100K  
lin  
4 second  
Delay  
Input Control  
Gain  
Muting & Output  
Low-Gain Regulation  
Power Supply & Time Delays  
Single-triode gain stage with choke loading  
Experience has shown that the best audio quality  
is achieved with the minimum number of active  
devices in the signal path. Each amplifying device  
has its own “transfer characteristic” and when  
these are multiplied together in a complex design,  
the result is an overall transfer characteristic with  
high-order distortion products - the worst-sound-  
ing ones. The Artemis Labs LA-1 uses a single 5687  
medium-mu, low resistance triode as the amplify-  
ing device for each channel. The 5687 has excellent  
linearity. Its low plate resistance allows it to drive  
heavy loads without the use of a cathode follower  
stage.  
allows the plate voltage to swing 100% above the  
B+ plate supply voltage, doubling the “head-room”  
and allowing a lower B+ supply voltage to be used,  
reducing power consumption. This large headroom  
permits output of over 40 volts rms before clipping.  
The audio chokes used in the LA-1 are made by  
Lundahl, a Swedish firm that uses a proprietary core  
material that has low distortion. Two windings are  
used on a common “C-core, which reduces pick-up  
of hum and noise.  
Modest feedback stabilizes gain without hurting  
sonic quality  
About 4dB of feedback is used across the single-  
triode amplifying stage. This stabilizes the gain and  
makes the frequency response less sensitive to load-  
ing. The inherent distortion of the 5687 with choke  
loading is already very low, so the high-order har-  
monics that can be generated by excessive feedback  
are minimal.  
The use of an inductor (choke) load instead of a  
conventional plate resistor offers several significant  
advantages to the LA-1 design. A good-quality  
audio choke is essentially a perfect current source,  
allowing the triode to operate into an infinite-  
resistance load, giving the lowest distortion.  
Unlike semiconductor constant-current devices,  
an inductor is an energy-storage device. This  
Can drive 8K ohm (aggregate) or higher loads  
Despite the lack of a cathode-follower output stage,  
Page 7  
the LA-1 can drive loads as low as 8K while still  
meeting specifications. This is important when  
driving certain solid-state amplifiers or pro audio  
equipment which can have input impedances as low  
as 10 or 15K ohms.  
is hot enough to build-up a protective space charge  
around the cathode.) This helps extend tube life. A  
muting relay shorts the audio outputs until about  
4 seconds after the high voltage is applied. This  
allows start-up transients to die away.  
High-Quality Conductive-Plastic Balance pots  
Since a stepped attenuator allows only discrete level  
steps, the balance controls are conductive plastic  
pots by Spectrol®, which have a minimum impact  
on the sound. By using a separate pot for each chan-  
nel, the default position (fully clockwise) permits  
full gain from the preamp.  
No troublesome integrated circuits  
All time delay and regulation circuits use time-  
proven, simple discrete semiconductor devices.  
Critical audio circuits point-to-point wired with  
military-style terminal boards  
Conventional fiber-glass PC boards are used for  
the power supply and for the rear panel jacks and  
switching. All critical circuits in the audio path use  
point-to-point wiring on military-style terminal  
boards using silver-plated turrets. This technique  
minimizes the sonic effects of PC boards and allows  
easy component replacement.  
Each channel individually voltage regulated  
Each channel has its own MOSFET source-follower  
low-gain regulator. This insures there is no coupling  
between the two channels through the power supply.  
The source follower regulator gives good regulation  
without the “transistor sound” typical of high gain  
regulators using op-amps. Protection resistors and  
diodes help prevent burn-out of the MOSFETs.  
High-quality, high temperature capacitors  
All electrolytic capacitors are high-quality 105°C-  
rated Panasonic® types for best reliability. All film  
capacitors in the signal path are either polypropyl-  
ene or silvered-mica types.  
True voltage regulation minimizes noises and  
changed operating conditions due to power line  
shifts. Since the impedance of the power supply,  
as seen by the amplifier, is low and flat, the bass  
response is even and solid.  
High-speed rectifiers and electrostatically-shielded  
power transformer  
Power supply noise is kept to a minimum by the use  
of a custom power transformer with electrostatic  
shielding between the primary and secondaries.  
High speed rectifiers are used for both the plate and  
heater supplies.  
DC heater supply  
A well-filtered DC heater supply helps keep hum  
low and allows the use of tubes that would other-  
wise have too much hum in AC-heated systems.  
Delayed high-voltage with delayed muting relay  
The high voltage plate supply is applied to the  
tubes after a delay of about 40 seconds. This gives  
the tubes ample chance to warm-up without the  
chance of “cathode stripping” (degradation of the  
cathode by bombardment by positive ions before it  
Available mains voltages (wired at factory): 100V,  
110V, 120V, 220V, 230V, 240V, 50 or 60Hz  
Virtually all the power systems of the world can be  
accommodated by the LA-1 transformer connec-  
tions. These are set at the factory or can be re-wired  
by a qualified technician.  
Artemis Labs products  
are distributed by:  
AYDN Vacuum Tube Audio  
679 Easy Street, Unit E  
Simi Valley, California 93065 USA  
Tel: +1 818 216-7882  
Page 8  
rev 1.0 11/04  

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