A Swiss Army Knife for Audio Engineers
The Copperline is a utility unit meant to be placed between a microphone and preamp or between two line-level devices. It's loaded with two channels of valuable features, including a 5-position attenuator, 5-position high pass filter, mute, vintage load, polarity, and never-before-seen variable voltage phantom power. So, whether aiding your vintage mic preamps with modern features or joining two line-level devices, the Copperline with help you creatively alter your signal and shape your sound.
Arguably the most critical device in your
recording chain, the microphone is only as
good as the power that runs it.
Phantom power is something most of us take for granted. It exists in our outboard preamps, mixers, or even compact, inexpensive boxes with “wall wart” power adapters.
Would you put cheap tires on a Ferrari? No. Then why use generic, “whatever works” phantom power with your treasured microphone collection? Not all phantom power supplies are created equal.
It’s important to understand that the standard phantom power voltage range for professional microphones is 48 +/- 4 volts (i.e., 44 to 52 volts). Some supplies don’t offer this range of voltages. Even if 44 volts - 52 volts of phantom power is provided, there may be significant noise or a lack of instantaneous current available for the microphone to meet the intended specifications of the microphone manufacturer.
The Locomotive Copperline offers up to 52 volts of phantom power from a high current and quiet supply. It will make your mics sound more detailed and transient-rich than from low-cost supplies or from some outboard preamps that consider phantom power an afterthought.
Slow-Start Phantom Power
Protect your prized vintage input transformers and quiet the turn-on pops.
The Locomotive Copperline features slow-start phantom power. Because the Copperline is intended to be set up between the mic and the mic preamp in the signal chain, a gentle onset of phantom voltage (5 seconds), rather than a quick power-on, will prevent voltage transients at the mic preamp input. In addition, a slow-rising phantom power voltage helps quiet turn-on pops and, most importantly, protects your vintage input transformers.
For example, there are sad stories about vintage V72 modules (modified to include phantom power) whose input transformer windings were damaged by substantial phantom power voltage spikes, sometimes over 1,000 volts within the transformer windings!
While the Copperline uses phantom power output blocking capacitors (electrolytic and film in parallel for you audio tech nerds), it's still essential to use a slow-start supply. This is because a phantom-blocking capacitor can still transfer an instantaneous voltage spike to the next device in line. The combination of Copperline's slow-start phantom and phantom-blocking capacitors assures you that your vintage preamps will never be exposed to this damaging threat.
Variable Voltage Phantom Power
Change the character and performance of your phantom-powered microphone with a single knob.
With Copperline's all-new Variable Voltage Phantom Power, you will discover how the voltage sent to your microphone can affect its behavior. Never before has a device been designed to purposely alter phantom power voltages in search of new character in an old microphone! After all, we’re more than just engineers; we’re artists with the never-ending desire to find new combinations to get a unique sound. So different that nobody will know how we achieved it. That’s part of the fun in audio engineering - happy accidents.
We are intentionally misusing technology to affect the resulting tonal characteristics of a microphone. Variable Voltage Phantom Power is such a unique concept that Locomotive and its inventors have a patent pending for the concept and design.
The effect is all dependent on the individual microphone design. There is NO single set rule on how a microphone will respond to lower phantom power supply voltages. And because each microphone’s internal circuitry is unique, you’ll be surprised by how tiny variations in phantom voltage will change the behavior of each microphone.
We've found that loud and transient-rich sources like percussion, guitar, and bass cabinets have a much more apparent effect on the sound when dropping voltage.
Dropping the voltage on a mic can have several effects on its performance, but will never damage a microphone.
Below is a list of qualities that your microphone may exhibit with lower phantom power voltages:
Lower output level (can be useful in creating a “pad” for mics that don’t have one)
A change in frequency response, sometimes apparent frequency response due to transients being less detailed. It may sound “darker” or more “smooth”
Lower output level and lower headroom, (mic will need more gain from the preamp, but also have distortion and different sonic footprint from the mic and the pre)
Same output level, lower headroom (loud sources will distort)
No change at all. Once phantom voltage has dropped enough the mic stops output entirely.
No change at all and just more noise
Passive Signal Tools
Use Copperline between microphones and preamps or between two line level devices
Born out of necessity, Copperline was conceived by producer and co-inventor Will Edwards. He needed a way to connect his large collection of outboard gear and make each piece "play nice" with one another. Below is an example of a problem that can be solved by using the Locomotive Copperline.
How do you connect a Neumann Fet 47 to a Telefunken V76 preamp, running through a vintage UREI 1176 compressor, and finally, into a high impedance modern pro tools setup?
With all of your passive tools in one place, the need for XLR barrel connectors is eliminated.
Want to load down the signal of the device (mic or line level) connected to the input of the Copperline? The ‘Vintage Ω’ or ‘Vintage Load’ switch places an 825 ohm resistor across pin 2 and pin 3 of the input XLR. This can be useful when the input impedance of the device connected to the output of the Copperline is high. Some microphones or line level devices actually sound better with a heavier/lower Ω load. We know that some vintage preamps, compressors and EQs actually require a 600 ohm load to sound “correct.” With the Vintage Ω Switch, you can easily plug in a unit requiring a 600 Ω load, then easily A/B between the two different loading impedances.
Example: If the output of the Copperline is connected to the 10kΩ - 20kΩ line inputs on an audio interface, switching on ‘Vintage Ω’ places an 825Ω resistor in parallel with the input impedance of the interface, now making the input impedance 762Ω - 792Ω. While not exactly 600Ω, anything under 1kΩ will have great effect on the audio. 825Ω was chosen as a happy medium because if the attenuation rotary switch is place in any position besides unity, then 825Ω is then placed in parallel with functioning impedance 1200-1500 ohms of the ‘Attenuator’ switch rather than the device connected to the output of Copperline. In that case, the impedance is dropped to 488Ω - 532Ω; again, close enough for Rock ‘N’ Roll!
Simply put, this switch reverses the polarity of the signal.
Mute your signal, no matter where any of your other Copperline switches are set to. This switch can also help to determine connection problems and allow for troubleshooting without changing other settings.
The 5-Position High Pass Filter offers 5 different frequencies selections to manipulate your audio; Off, 45 Hz, 75 Hz, 150 Hz and 300 Hz. A mu metal shielded custom wound inductor offers low-noise high pass filtering on low level mic signals. The high pass cutoff frequencies are dictated by the output impedance of the device connected to the input of the Copperline. Many microphones are in the range of 150Ω, and therefore, the basis of the frequency selection in the Copperline high pass design.
Please see the graph below showing how the corner frequency of the high pass filter changes as the source impedance of the device connected to the input of the Copperline changes.
The 5-Position Rotary Switch Attenuator Pad offers 5 different levels of attenuation; Unity,15 dB, 20 dB, 30 dB and 40 dB. When switched between 15-40 dB of attenuation, Input impedance 1200 -1500 ohms. If set to unity, Copperline input impedance is determined by the device following (connected to the output) of the Copperline.
Copperline Creative Hacks:
Place Channel 1 and Channel 2 in series
You can change the order or, or stack features to get even more out of the Copperline. Need 60dB of attenuation? No problem. Just use 40dB from channel 1 & 20dB from channel 2 or 30dB from both channels. What happens when we attenuate channel 1 by 30dB (47Ω output impedance) then send the signal to channel 2 and high pass? The effective cutoff frequencies will actually be a little over half of the frequencies marked on the front panel. Or stack two high pass filters in series?