Sunday, October 21, 2018

NUX Brownie distortion : Design Theory



Every guitarist likes brown sound! It's warm, huge and very natural. Now take the NUX Brownie and get all of your tone you want from the mini size pedal. It's mini but it's powerful, mighty, cutting edge and warm, it brings back the classic British rock sound from 70's.


Design~



Brownie provides the pure British distortion sound.
It has a distinctive preamp and power tube distortion sound produced by its hybrid circuit. It's incredible to get such a powerful and warm tone from this little monster.






















A special design BJT input stage makes this distortion pedal breakup, in the same way as a preamp tube start to distort. Brownie uses asymmetrical clipping circuit that breakup half of the signal more than the other half. With this type of clipping, you could simulate some of the characteristics of a tube amplifier. It also keeps tight the lows by processing bass frequencies without muddy while they are distorted.

The Brownie uses a low pass tone control circuits to simulate the Variac effect (lower the voltage going into the amplifier) for rounding of your tone.
The response of tone control is very well in dialing the high frequency response.


















The power clipping circuit is crafted from modern low noise OP-Amp and two red LEDs. It creates symmetrical clipping that distort both half of the signal and keep the sound like liquid smoothness.




Craftmanship~

This unit is crafted from precision components and workmanship. True bypass circuit with a high quality TPDP mechanical foot switch makes the bypass signal clarity.  Each unit is tested before packaged.
























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Sunday, May 6, 2018

IR (Impulse Response) features in NUX Solid Studio

Blog Contribution: Monk Li  ( Taiwan ) Marketing Director NUX | Cherub Technology.








IR (Impulse Response) features in NUX Solid Studio

In recent years, with the development of science and technology, more and more effects have been designed to abandon Cab Simulation and use IR instead.
Let's talk about the cab simulation and IR stuff today.




What is IR (Impulse Response)?
Impulse response is a parameter of convolution in mathematical algorithm. For electronic or electrical engineers should be familiar with Impulse response and convolution.


With a signal that time approaches to zero and the signal approaches infinity (commonly known as a pulse, it is also known as an impulse response), a system is used to measure his output. The frequency response of this system can be obtained by converting this result from the time domain to the frequency domain using the Fourier transform.

The impulse response intuitively reflects the manifestation of sound in our life world. Literally, impulse response is a response to "shock", it sounds very mysterious, and it's not complicated to put it in perspective. Let's explain it in a popular way.

Suppose a musician is in a room. He wants to know the sound characteristics of this room. What is the easiest way?

Slap the hand, and then listen to the room's response,you could basically understand it. This process is the simplest method of obtaining impulse response. The slap time is very short and can be as an impulse signal. The following reverberation is the acoustical property of the room and the impulse response of the room. Performing a performance in this room is equivalent to performing a convolution operation with the musician's performance using this impulse response data.

For the above-mentioned operation is still applicable for the electronic system, musicians use a guitar speaker to amplify the signal and then sound through the speaker is the convolution process of the guitar speaker and guitar. (Note: The convolution operation is only applicable to clean sound. If the system is distorted, convolution does not apply.)


The length of IR is an important parameter.
The reverberation of a concert hall is often tens of seconds. If we want to express the reverberation characteristic of this concert hall, we must obtain at least a dozen seconds of impulse response. Convolution with these tens of seconds of impulse response is a very large number of operations (usually requiring millions of operations), even if it is difficult to achieve the real-time performance of the acoustic characteristics of the concert hall with current technological level.

Fortunately, the impulse response data for the speaker system does not need to be so long. It is only necessary to clearly express the range (20 Hz to 20 kHz) that the human ear can recognize. As a result, the impulse response data of 50ms can fully satisfy the performance of various speakers from bass to guitar.

The length of an impulse response is usually expressed in two ways, like our time value above and another point value (samples). The point value and the time value can be converted to each other. For example, the sampling rate of the effector is 44.1 KHz. Then a 2048 point impulse response data is equivalent to 2048 x (1/44100) = 46 ms. 
(Note: Fractal Audio's Normal mode is 1024 samples, 20ms; Fractal Audio's HiRes mode is 2048 samples, 40ms.)

If the impulse response data is too short, it will affect the accuracy of low frequencies. For example, many manufacturers use an impulse response length of less than 512 points to avoid the use of expensive high-end DSPs. The accuracy of low frequencies will deviate significantly from the correct position below 150 Hz, resulting in low frequency power and muddy:




The above figure shows the difference in low frequency when the guitar speaker collects 2048 points and 512 points of impact response length. It can be seen that 2048 points are higher than 512 points around 3 dB more at  130Hz. The low frequency decays rapidly after 90 Hz, which greatly increases the control of the low frequency and makes the sound clear , tight and powerful.




























What is system latency?
System latency is another important parameter of hardware, which reflects the response speed of the hardware system to the signal. System latency plays a crucial role in the musician's performance. If the delay is too long, then the sound heard by the human ear will lag behind that of the hand. Professional musicians will experience discomfort with system latency higher than 5ms, and the sound will be soft. In fact, because the played sound cannot be transmitted to the ear in real time. It is not conducive to the intensity of hand control tone.
The system delay can also be converted into the distance from the source to the ear. The speed of the sound is 345 m/s. The delay per millisecond is equivalent to 0.345 meters. Assume that the musician's ear is 1.5 meters away from the speaker, and the space delay is nearly 5ms, so the lower the system delay, the better the force control.



The figure above shows the actual system latency characteristic measured by Solid Studio. It can be seen that only 0.68ms, which is the distance of 20cm, is even shorter than the physical distance that the guitar string is directly conducted to the ear, thus maximally avoiding the influence of the system on performance.
However, to achieve a very low system latency requires strong system computing power to support, due to the natural properties of the digital system, the sample rate will directly affect the system delay. For example, the commonly used 44.1KHz sampling rate sampling time interval is about 22μs (microseconds), if you use ordinary DSP and AD / DA converters usually take at least 100 sampling time to process data, so most of the Digital hardware is higher than 2ms system latency.
Solid Studio uses oversampling technology, which is to increase the system sampling rate to 88.2KHz, so that the sampling interval is reduced to 11μs (microseconds), coupled with the industry's top TI 6720 floating-point DSP and the latest generation of AKM professional AD / DA Converters surprisingly shorten the time needed to buffer to less than 1 millisecond.







Solid Studio comes with 8 classic cabinets:
Roland JC-120, Fender Deluxe Reverb 112, Fender Bassman 410, VOX AC30 212, Fender Twin Reverb 212, Marshall 1960A, Celestion Greenback 412, Celestion Vintage30 412
(Note: All product names are trademarks of their respective owners, which are in no way associated or affiliated with NUX. These product names, descriptions and images are provided for the sole purpose of identifying the specific products that were studied during NUX's sound model development. )




Solid Studio has 8 classic microphones:
Sennheiser MD421, Shure SM57, Neuman U87, Royer R122, Royer R121, AKG C414, AKG C3000, Shure Beta52.


(Note: All product names are trademarks of their respective owners, which are in no way associated or affiliated with NUX. These product names, descriptions and images are provided for the sole purpose of identifying the specific products that were studied during NUX's sound model development. )


Three kinds of power-tube selection and power amp simulation with the algorithm of vacuum tube post-distortion and state compression characteristics.  Among them, the Drive can be regarded as the Bias used to force the post-distortion.


What are the +4dB and -10dB selector switches on Solid Studio?
Many people feel that the Level switch does not respond. Is it defective or design flaw? Want to make it clear that this matter goes back several decades.

The earliest recording devices were very expensive. They were purchased in professional recording studios and operated by professional recording engineers. The music was recorded on huge tapes, which were then recorded and sold to the market.

For better dynamics, these professional devices use very high level signals to drive these professional devices, typically up to tens of volts. In the face of the market, manufacturers need to reduce the cost of playback equipment, so use regular level signals to play records and tapes. Over time, it formed a professional and civilian equipment camp.
(Here you could check the description from Sweetwater: https://www.sweetwater.com/sweetcare/articles/4-db-considered-professional-standard/ )

Professional camps use +4dB as the reference input level, while specifying a headroom of at least 10dB. Converting to easily understandable data uses 1.23V as the reference signal strength, and the device can handle at least 20V signals.
The amateur camp uses -10dB as the reference input level, and the dynamic headroom is about 10~20dB. Converted into easy-to-understand data is 0.316V as the reference signal strength, the device can handle 6V signal.
Looking at the above explanation, we can understand that these two levels are the signal strength that the system can bear. If two systems are all inputting 1V signals, both systems will also output 1V signals at the end (assuming that the two systems are only Doing storage and transmission) This is why the level switch is toggled but there is no real reason for "reaction".
Since the professional +4dB level can withstand higher voltages, why does Solid Studio also set the switch to select two reference levels? This involves the problem of noise. The obvious difference between the current digital system and the current year's analog equipment is that the withstand voltage is relatively low. The signal needs to be attenuated a large part before entering the digital system and then amplified back after being output to the digital system. The larger the amplified value, the greater the noise of the digital system itself. The +4dB file is larger than the -10dB file and the noise is also louder.
So when we put the signal of the guitar and the effect pedals into Solid Studio, we can use -10dB to ensure the best signal dynamics and noise level. When we use the Send signal of several rack effects or vacuum tube amplifier in Solid Studio, we can use +4dB to ensure that the signal does not overdrive.


Is there the simplest operation method? That is, stay on -10dB until you feel that Solid Studio is overloaded and switch to +4dB.

First listen to see how the sound?



Next time let’s talk about “IR Capture”.

Tuesday, April 3, 2018

NUX Metal Core Deluxe

Pedal to the metal!



Metal Core Deluxe offers a detailed sound control while you shedding the nails down in your house with its powerful sound. 


Metal Core Deluxe has 2 distortion voicing. The voice 1 is a total metal blaster distortion with well scooped mid frequencies. 
But depending on the environment, you might need to control the mid frequencies on the amplifier, so you should choose voice 2. 

Voice 2 is a high gain distortion channel with a well balanced EQ.

One of the famous "scooped" EQ guitar sound is created by Dimebag Darrell, even after the 90's he didn't change his mind to use the Mid knob. 
Plus, there are many bands in 80's that play through strong amps at low volume love the sound of a distorted guitar that is "full and smooth" – meaning there are deep lows and present highs that get emphasized while much of the "honking" mids are cut. This is known as a mid-scoop setting and when looking at a graphic equalizer is represented by a "V" shape of the various frequencies.

When you switch voice 1 and hit the pedal ON, you will get that razor tone in your bedroom. But if you play in the studio or on stage, you should consider the other instrument frequencies. If you feel like there is a wet blanket on your amp, don't try to increase your volume. Jump to voice 2, and cut the mids as much as the environment let you. 

Simply, the guitar is a mid-frequency based instrument, when you cut the mids, there will be low and high frequencies left (that will sound great at home). And those frequencies can be covered by drum kick, or the cymbals easily. Unless if you don't have enough headroom, that would fix some of the environmental issues. 

And for the EQ control, when your guitar frequency is getting interfere with any other instrument on LOW and HIGH frequencies. Metal Core Deluxe also have 2 band EQ to control LOW and TREBLES. Try to separate your guitar from other instruments by using the EQ parameters, not the volume knob. 

Playing in a metal band, it's like using the strong weapons. If you know how to use it, you can create a huge crater in the venue. It's not easy to make your sound perfect as quickly as the other bands, but when you learn your weapon abilities. No one can stop you.


Of course, there is a penalty for using the HIGH GAIN pedal. Even you can lower the gain parameter to half, it is still a high gain distortion :) and that may cause some noise. (that noise no one wants to have it) So, Metal Core Deluxe also has a Noise Gate for those unwanted dirty noise in the background. You can simply hold the footswitch and use the gain knob while holding it. And don't forget that increasing the gate level may affect your sustain and the guitar tone. Find the good spot, and enjoy killing. 

*Please note: a broken or cheap cable, defected guitar input or amp input also causing the background noise. Even the house electrical system and non-grounded electric plugs may increase the noise level. If you tried to use the noise gate and you still have an issue. Try to find the real source.


When you finish your setup on the pedal. Use the middle switch and toggle to T-Lock function. You can protect your dial-up while you headbanging and jumping around. If you hit any knob by mistake, nothing will change. Just don't press the footswitch in the middle of a solo.



Overall:
2 high-gain distortion voices: Voice 1 - Mid scooped EQ, Voice 2 - Well balanced
2 band EQ controls: BASS and TREBLE
Noise Gate
Tone Lock Function


CLICK HERE to read more on nuxefx.com


Monday, March 26, 2018

NUX Time Core Deluxe


NUX Time Core Deluxe is one of a kind everything-in-one-box delay pedal. You can find everything you need for the delay effect sounds. 7 different delay mode types offer a variety of delay effects and each delay mode has its own characteristic sound which you can set to get a more personalized presets. There are 3 control knobs to set the parameters for repeat amounts, time speed and mixing the dry and wet signal to send to output. Optional: TAP TEMPO.
 
A closer look at the effects:
Tape - Saturated repeats, a tape machine touch.
Digital - Crystal clear repeats, best if you use any other modulation effects, your repeats output will be clean as what you send through input.
Analog - Simulates the BBD algorithm and every repeat of the sound reusing the previous repeat. It comes down to personal taste.
Ping Pong - Repeats will bounce on left and right. Stereo output connection recommended.
Pan - Repeats have a pan algorithm and it will bounce from left to middle and then to right. Stereo output connection recommended.
Reverse - Repeats will play backward. You can explore the dark side of the moon!
Hold - 40 seconds loop station



NUX Tape Core Deluxe also has a stereo I/O connections for more delay effect experience. And there are 2 output options, Tail and Normal. You can keep the last note trails when you switch off the effect in Tail mode. 



It's one of the never-gets-old pedals.
#nuxefx