EDIT: I updated this review to better align with the way I usually review devices, especially CD Players, as I described in the post “
More than we hear”.
Hi everyone,
I grabbed a 2i2 Gen4 at my preferred shop. I wanted to know a little more about it, as I liked the Gen3 that I used some time ago.
Here below are measurements of the Focusrite 2i2 Gen4 DAC, performed with a Motu Ultralite MK5 and REW Software (for the measurements).
I tested the outputs in both balanced (TRS connector) and unbalanced (TS connector).
I used two computers, one with the Focusrite and another with the Motu, which allowed me to run their respective ASIO drivers independently.
Before measurements, I installed Focusrite Control 2 Software, and updated the firmware as per instructions of the user guide.
Focusrite 2i2 Gen - Measurements (Line Out - Balanced)
The following tests are performed using balanced connection (TRS) at the output.
The device outputs a theoretical 16dBu per the specs, I'll measure the reality later, but it seems to be very close. Most of the tests below were performed at 24bits/96kHz unless otherwise noted. Both channels are perfectly matched as per what I can measure (0.00dB).
Let's first start with my sine at 999.91Hz (without dither) at 0dBFS and with front volume knob at maximum):
SINAD = 107.7dB, ENOB just above 18bits.
Now the same but at -6dBFS:
The distorsion is much lower which demonstrates very good performances here. I obtained the same results with sampling rates of 48kHz, 96kHz and 192kHz.
And for the sake of completeness, this is a wide band capture (up to 96kHz) while the Focusrite is set at 96kHz:
We see noise shaping from the DAC starting at 45kHz. It's exactly the same if the Focus runs at 48kHz.
Amir showed the bandwidth and filter attenuation at 44.1kHz, as it is his standard measurement. So let me show the two at once but this time when the Foscurite runs at 96kHz sampling rate:
We see a flat bandwidth up to 40kHz. The out of band attenuation would have been the same as what Amir reported, but here we see the noise shaping technique of the conversion which rejects computational decimation errors (in the form of noise) at higher frequencies were they matter less. Nothing to worry about.
Multitone is identical to what Amir documented too (Volume at maximum):
If some of you read my CD Player reviews, you'll know I like to measure the THD vs Frequency @-12dBFS as a proof of good performances where it matters:
These are very good and results are better with less attenuation, as usual. I think this is important to know because it’s the way this DAC is likely to be used, by attenuating the output in digital domain, when using a DAW. At -12dBFS, which means 1.2Vrms output, you get extremely low distortion.
Other results (not shown) are:
- Crosstalk : -137dB at 1kHz and -129dB at 10kHz
- IMD AES DFD "Analog" : -99.1dB (18kHz & 20kHz 1:1 @-3.02dBFS)
- IMD AES DFD "Digital" : -95.8dB (17'987Hz & 19'997Hz 1:1 @-3.02dBFS)
- IMD AES MD : -108dB (41Hz & 7993Hz 4:1 @-1.68dBFS)
- IMD CCIF : -98.1dB (19kHz & 20kHz 1:1 @-3.02dBFS)
- IMD DIN : -104.3dB (250Hz & 8kHz 4:1 @-1.68dBFS
- DR : 110dB (997Hz @-60dBFS, no dither)
All of the above are very good.
Focusrite 2i2 Gen - Measurements (Line Out - Unbalanced)
The following tests are performed using balanced connection (TS) at the output.
I am adding this section as I think it is informative for the future users, when it comes to using unbalanced connection (TS cables or TS to RCA).
The output delivered an exact and expected 6dB less (10dBu, or 2.45Vrms).
This is my standard 999.91Hz @0dBFS (no dither):
Wow, my eyes are bleeding, distortion is over the roof! The resolution drops to 14bits only...
There are mains components being captured (50Hz and harmonics), but running the PC that drives the Focusrite on batteries (to mimic galvanic isolation) solved the problem.
Let's run my usual same tone at -6dBFS, with the PC on batteries:
The 50Hz and harmonics have indeed disappeared. If the situation improved on a resolution perspective, we still loose 1.5bits compared to using TRS connectors. At least the noise remains pretty much the same.
Let's have a look at my preferred measurement, THD vs Freq @-12dBFS:
At lower output, the situation improves a little with less than 10dB difference at 1kHz, but it's still 1.5bit of resolution lost when using unbalanced connectors.
I can only recommend to use balanced cables when connecting the 2i2 to whatever downstream device.
Some words about the Volume knob
If I lower the output digitally (playing my usual test tone but @-2dBFS instead of 0dBFS), with the front volume knob at max, I get:
Now, If I use a 0dBFS test tone and lower the output using the front volume knob (which is not digital) to get -2dB output, which is 4.1Vrms as Amir did in his first dashboard:
That is even worse that what Amir got. So the issue is with the front manual volume knob, not the DAC.
If I lower the volume to 2Vrms output (that means roughly -8dB), still using the volume knob and still with a 0dBFS test tone being played, I get:
So, just leave the front knob at maximum, and lower the output from your DAW or whatever software you use to play music. This is the exact same recommendation you can read in the user guide (page 19) about the output control, by the way. Now you know why.
Conclusion (Line out)
With front volume knob at max and when using balanced cables at the output, the 2i2 Gen4 nearly delivers per its published specs (THD+N = -109dB).
I found a DR of 110dB though, not 120dB as published, but it could be a limitation of my measurement interface in use here (it's not an AP).
Lowering the output in digital domain ensures high level performances for monitoring.
Just avoid touching the front knob volume or be warned that you risk not to get 16bits of resolution. Same with TS connectors, don't use them, else be ready to suffer decreased performances.
Cheers