Sunday, October 28, 2012


Pic. 1

Hello and welcome to this week's article! Today we will talk about How to Record Cymbals!
There are many ways to record Cymbals, and the technique has evolved greatly throughout the time: from the early recordings, at the beginning of the 20th century, with nothing but a condenser microphone in the middle of the room to catch the sound produced by the whole band, to the most complex combinations of close miking of any single drum piece with other microphones to take care of the global room sound. 
The technique we're going to show you today it's a compromise between the need to capture the life of the recording room and the flexibility of having two single tracks for Hi Hat and Ride.
This technique can be successfully used with a natural drumset as well as with a triggered one (or a drum with its signal Replaced), although with a triggered drumset, if properly muted, is even better: we will have "clean" cymbal tracks, reducing to the minimum any unwanted mic bleed from other drum parts, and this will help us greatly during the Editing Phase.
Some musician even prefer to record cymbals without using the drumset at all, using just the cymbals and their stands, microphoned: the drummer plays the cymbals as he would do using a drumset, following the song on his headphones. This method may feel a bit unnatural, but it's the "cleanest" way to record the cymbals signal with zero bleed from the drumset :)

Let's start talking about Overhead Cymbals (Crash, China, Splash...): these are the cymbals that are positioned above the drumset, and their sound can be captured with a couple of overhead microphones (Pic. 1), which can be dynamic, but it's very suggested to use Condenser Microphones (e.g. for our recording we have used a pair of Akg C1000), since they can capture many more details. They can be positioned with the X/Y method, as shown in Pic. 1, creating a 90° angle to one another, at around 3 or 4 feet of height (1-1.20 meter) from the drumset. This setup is good to record the whole drumset / cymbals area providing phase coherence (therefore less frequency cancellation). 
There are other methods too, for example the A/B positioning: the two microphones must be at the same height, on the left and right side of the drumset, set horizontally (large diaphragm mics) or pointing towards the center of the cymbal group of their side (small diaphragm mics). 
The A/B positioning is more suggested with large diaphragm condenser microphones, while the X/Y positioning is for the small diaphragm ones, like depicted on Pic. 1.

Pic. 2

Now let's talk about the Hi-Hat (also known as "Charleston"): this drum part actually consists of two cymbals that are mounted on a stand, one on top of the other, and a pedal which can be used to clash and hold the cymbals together. 
This cymbal can be close-microphoned, since it's a very important part of a drum sound, complementary to the snare. We need to process it alone, if possible, so the Hi-Hat can be microphoned with a small diaphragm conderser or with a dynamic microphone, such a Shure Sm57 as shown on Pic 2, on the upper side of the Cymbal, at a distance of a couple of inches, at the opposite side of the Snare, in order to catch as less snare sound as possible. 

Pic. 3

The Ride cymbal is another important drum part, with a function similiar and alternative to the Hi-Hat, so it's suggested to record it with another dedicated microphone, which can be a dynamic one as well (another Shure Sm57 on this will be perfect), but this time the right positioning is Below it, at about 2 inches of distance (Pic. 3), in order to catch as less bleed from the other drum parts as possible.

These four microphones must be connected to four Microphone Preamplifiers, therefore we will need an Audio Interface with at least four Mic Preamps, or an external Mic Preamp / Mixer to be connected to our Audio Interface on a way that lets us stream the sound of each single microphone on a different track.

Ps. Thanks to Francesco Paoli and Cristiano Trionfera from Fleshgod Apocalypse for their help on recording the drums of my band! ;)


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Saturday, October 20, 2012




- Something about Microphone Preamplifiers: As we have already seen, the quality of the microphone preamp components and the quality of the ADC - DAC converters is where most of the price of an audio interface lies. The more an interface is expensive, the better probably those crucial sections are, in terms of construction and electrical components quality.
Which are the characteristics of a Mic Preamp, beside its intrinsic quality? The presence of a 48V Phantom Power switch, that is used to transmit electricity through the cable to a Condenser Microphone, a kind of microphone that features an active electronic circuitry and cannot work without this function; beware not to turn the Phantom Power on when plugging a dynamic microphone, otherwise you may damage it!
Another interesting feature often found on Mic Preamplifiers is the 20db Pad, a function that drops the input signal 20db lower, and this function is useful when plugging to the interface some instrument that has a signal too high, so high that it cannot be compensated just by turning down the input knob.
Beware when recording of avoid clipping at any cost! If the "clip" led (or meter, according to the type of interface) turns red, the input level is too high, this means that some part of the signal gets lost and it's interpreted by the DAW as plain noise. In this case, is very suggested to record again the part at lower settings, because it's practically impossible to restore.

- Something about the Dsp Processors: The most high end interfaces on the market sometimes features an additional processor, created to provide effects (such as Compression and Reverb, for example) without consuming the computer's CPU.
This is particularly useful when recording Vocals, since singers often need some real time processing on their headphones, at the lowest latency rate possible, in order to hear themselves "in the mix" while performing.
We can find a Dsp on the top-range Interfaces of many manufacturers: Motu, M-Audio, Focusrite, among the others.
Another use for Dsp processors is not only to monitor the sound with the effects on, but also to record the sound itself with the effects applied, and under this point of view there's plenty of interfaces, especially for Guitar and Bass, such as the Line 6 Pod (click here for a dedicated article) and many other devices, that will apply to your sound an emulation of Amplifiers, Cabinets, Effects and so on, all without burdening on the computer's resources: let's not forget that some of these effect devices can be used as an Usb Audio Interface too!

- The Right Interface for The Right Job: When choosing an audio interface it's important to have clear in mind the main use we intend to do with it.
Recording: If we need to use our audio interface mainly for recording, we need to choose the one with the right amount of inputs for our instrument, for example if we need to record drums, we will need an interface with many mic preamps (possibly at least eight inputs, for kick, snare, hihat, 3 toms, and 2 overhead). Another interesting choice is a mixer that sends all the channels into separate channels of our DAW.
Then we need a good quality ADC (analog to digital converter) with a high dynamic range, at least 96 dB. A high dynamic range for the DAC (digital to analog converter) isn’t needed, because the audio interface is only used for recording.
Mixing and Mastering: For these tasks we will need instead a good quality DAC (digital to analog converter), at least 110dB of dynamic range: this is necessary since we want the result of our mixing to have the same headroom it had when we recorded it, plus a good mixing quality will help us in the Mastering Phase too.
Another thing we may need for mixing is the correct number of inputs and outputs, as we've already seen in the second part of this tutorial: if we have some hardware processor such as an equalizer or a compressor, we will need at least two inputs and outputs, and maybe some S/pdif connection will help too.
If we use it just for mixing or mastering, our audio interface for mixing won’t need a high dynamic range of ADC (analog to digital converter).

- Happy First Birthday Guitar Nerding Blog!!: With the conclusion of this three weeks long article we're celebrating the First Atoragon's Guitar Nerding Blog's Birthday!! Thank you to all the viewers, keep on supporting us, becoming fan on Facebook and sharing our links, commenting articles and videos and collaborating with your articles! We need your help us to becoming the no.1 resource site on Home Recording Tutorials around!

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To keep RECEIVING ALL POSTS FROM US you have to open our page, hover the mouse on the "Like" button near the gear symbol. In the pop-up select "ADD TO THE INTEREST LISTS". Then create an interest list (Make a Name for your sites). Then when you select that interest list you will see ALL of our posts.
Rock On!




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Saturday, October 13, 2012




Once we have seen the different types of connection of the various audio interfaces on the market, it's time to take a look at the main features that an audio interface should have, starting with the ADC-DAC conversion: what is it? It's the conversion from an analog signal to a digital one (usually in binary system), and the reverse operation.
This process is very important if we want to make music, since it's going to impact on the whole production, therefore a good conversion leads to a good digital representation of the wave, and the better the electronic components of our device are, the better the conversion will be.
Working in the digital domain, we need to have a final wave at a resolution of 16 bit and 44'100hz (the double of the highest frequency audible by a human ear), in order to be burned on an audio cd, but if we want to produce music that sounds really well on this device we need to operate at higher resolutions, and then Dither the signal down to that amount.

- RESOLUTION AND BIT DEPTH (click here for an in-depth article): This higher resolution basically consists into operating at a bit depth of 24bit (which is a fidelty to the original wave twice as high as the 16 bit one), and at a sample rate higher than 44'100hz, in order to have the freedom to create a wave that sounds better then it could be reproduced by a regular cd player, so that when it comes the time to dither it down to 16bit 44'100hz it will sound better than if it was recorded directly within those limits.
So when choosing an audio interface keep in mind that it should let you work at a bit depth of 24 bit at a sample rate of at least 48khz (some devices arrives even at 192khz, but I personally don't think that much is necessary: many plugins don't work properly at that rate, plus the wave files becomes bigger and bigger on our hard drive).

- INS AND OUTS: another important feature that we must analyze when choosing an audio interface is the amount of Ins and Outs. What do we need to do with this interface? Do we need to record our whole band or just guitars and vocals in our bedroom? We need to have a clear idea of how many inputs we need.

The Input - Output jacks are Mic inputs (balanced), Line Inputs (unbalanced), and Instrument Inputs: the Xrl jacks, or microphone jacks, are balanced jacks (signal level is higher, because it passes through a mic preamplifier), while the 1/4 jacks (also known as TRS) may be balanced or unbalanced (the unbalanced ones have a significantly lower signal level and are called Line Inputs).
Line Inputs: These TRS jack labeled "Line Input" are the ones optimized to receive sound from an external preamp, or an external mixing board, since this input bypasses the preamp section of the interface.
"Line Outputs" are instead used to send the signal to external outboards, like for example hardware effects processors, or other amplifiers, if we want to do a Reamping.
Instrument Inputs instead have a higher impedance (therefore a lower signal) than a balanced input, but the signal is higher than a line input; ideally these inputs stands halfway between a balanced jack and an unbalanced one in terms of signal, and are suited specifically for guitars, basses, and other instruments.
Most of modern audio interfaces anyway features one or more combo jacks balanced-unbalanced that automatically switch between the two formats recognizing the type of instrument, plus they often offer some other unbalanced input.

If we need to record a whole band there are interfaces with several Xrl or Combo balanced inputs, or even some mixer that can directly connect with the pc via Usb or Firewire, just make sure that if the mixer connects with the pc, you can track independently all the single channels on your Daw (an option possible, for example, with the Phonic Helix serie), because most of them will just sends all of them to a stereo output, making further mixing impossible!

Sony / Philips digital interface (S/PDIF), this input-output consists in two plugs: In (usually red) and out (usually white). This connection has many uses: to connect an external mixer to the interface, connect the interface to another interfaces or to studio monitors, to connect reproduction devices such as an audio cd player to the interface without significant signal degradation.
Midi input - Output: this is a kind of connection not featured in every audio interface, and it lets your keyboard, or hardware drum sampler, or any other midi-driven device to be connected with the computer and to record midi tracks;
lately this connection on the instruments is often replaced directly with an usb connection, so it is possible to plug the keyboard directly to the pc without the need of a Midi port.
ADAT Optical Input - Output: it's a pretty uncommon connection, featured usually on the upper-range interfaces, capable of carrying large amount of data without any additional digital to analog conversion. It may carry the data stream of up to eight digital audio channels simultaneously, so if we connect it to a device with more inputs, we can use this port in our interface to expand the number of channels streamed to our Daw.
Headphone Output: a headphone output or more is very important, and it features an internal headphone amplifier with volume control to make it loud enough even for a singer, so that he can hear the base while he's singing. If more outputs or more volume are needed, it is possible to add to those outputs additional headphone amplifiers.

Sunday, October 7, 2012


Hello and welcome to this week's article! today we're going to talk about audio inerfaces, and how to choose the one that suits your needs!
Back in the day, like 20 years ago, professional audio hardware was very expensive, at the point that it was impossible for an amateur to buy a decent equipment in order to do a good home recording, but lately, more or less in the last five/ten years, the manufacturers have started producing an increasignly wide range of interfaces of good quality, at a reasonable price, that allows anyone to try to record their own music at home, and this is the reason why the internet is full of "bedroom producers", me included :)
Why do we need an audio interface? Because we need to send somehow the signal to the Digital Audio Workstation, and the internal mic preamp of our motherboard it's just not accurate enough to reproduce it with fidelity.

Now let's analyze the main characteristics of an audio interface, in order to choose properly, starting by the kind of connection with the pc:

- PCI: nowadays only few interfaces are Pci (the internals interfaces), and they are used mainly for their AD-DA conversion, usually associated with a mixer or an external preamp. Those are often the cheapest solution and usually are also the best in terms of latency. The amount of data transmitted is very large too, the only downside is that once you have installed it on a pc, with screws and everything, it stays there, so it's unconfortable to carry it around and install it on other computers. Plus it's not compatible with laptops, and the sound quality depends on the quality of the external preamplifier you will use. (example of Pci soundcard: the M-Audio ones) 

- USB: it's the most common connection and it is already featured on every computer, so nothing else is needed, just make sure that your audio interface is at least USB 2.0 (3.0 is even better, although currently I am not aware of interfaces ready to support it), otherwise it can't transport enough data to handle a medium-sized project, and for larger projects even the 2.0 version may not be enough (it carries 400mbit/s, but it's slower and less stable than a Firewire port), so it may give some latency problem. 
For most of projects, though, usb 2.0 it's ok, plus Usb interfaces are fairly cheap and produced by a large amount of manufacturers, so the price spetrum it's very wide too, ranging from the cheapest ones (like Behringer), to the most high-end and expensive ones, like the E-Mu or the RME
Beware of the sample rate, though, since the higher it is, the less tracks the interface can handle, since their dimension increases greatly at higher rates.
The price difference is because of the specs (that we will analyze in this same article) and the components quality, especially the the converters and the Mic Preamplifier quality. When the Preamplifier section is good enough, there is no need for an external preamp, therefore we can save some money.
Another important thing to keep in mind is that Usb devices are driven by the Cpu. That means that they will keep busy some cpu just to run, and this might be a problem if we have a large project and try to make some resource economy. 

- FIREWIRE: this is a connection that is alternative to the Usb one, and it's not featured on every motherboard (altough a firewire Pci card can be bought for around 10 bucks), it does not support hot plugging (you must connect the device while the computer is still powered off, otherwise it may burn your motherboard), and also the average firewire interface costs a little more than an Usb one, so why does many people (me included) prefers those to the Usb ones?
Simple: a Firewire port carries more data than an Usb one (around 400 and 800 mbit/s, there are 2 different Firewire ports), it's more stable and reliable, offers a lower latency even handling big projects, and most importantly it doesn't make your Cpu work just to be active, therefore you have more resources to use on your project. There are many firewire interfaces, some of which are considered a standard among the semi-professional scene because of their price-to preamp quality ratio, such as the Focusrite and the Presonus ones.

- THUNDERBOLT: it's a new kind of port introduced by Apple, it can carry 10 to 20 gb/s, and today there are just a few (and expensive) audio interfaces that can use it, such as Apogee and Universal Audio, but probably (along with the Usb 3.0 standard) this is going to become the standard that over time will replace the Firewire connection. It carries a huge amount of data, it's reliable and today it's featured on the latest generation of Mac computers.

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