Manual

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Analog Input Alignment

When using internal trimpots analog input level needs to be aligned using

an approx 1kHz sinewave fed from +4dB balanced source. The alignment

does not affect audio quality, only input sensitivity. The alignment is

performed using 10 turn trimpots inside the unit (see: "Internal Jumpers").

A small tweaker or screwdriver is necessary.

You have to arbitrarily decide what will be your studio "0 VU"

analog/digital reference level. It is usually between -20 and -14dB. It

defines how much headroom you have left over the normal operating "0

VU" level. You may set it at the same level as other piece of equipment in

your studio. For example Panasonic 3700 is fixed at -18dB (which is low

for most rock and roll recordings). ADAT is fixed at -15dB which is a

typical optimal level.

1.Set the oscillator in your console at 1kHz and "0 VU". Send the

oscillator to the ADC analog input."0 VU" at + 4dB corresponds to 1.225

Volts RMS measured between pin 2 and 3 of the output XLRs. If you do

not have an analog oscillator, you can use a calibrated analog out of a DA

converter and generate the sinewave inside the DAW.

2. Connect a digital PEAK meter to a digital output. If you don't have a

dedicated digital meter use the most precise meter available in you

existing digital recording equipment or DAW.

3. Adjust the analog input level to get appropriate reading of the meter

(for example -15dB).

The alignment has to be performed with accuracy of 0.1dB to be

considered accurate.

Similar alignment procedure with 0.1dB accuracy is required for valid

A/B listening comparisons btwn. different pieces of equipment. A slightly

louder source is typically perceived as "better" sounding.

Unbalanced Signal Source

Operation

Stereo96ADC can be operated with weaker consumer level unbalanced

signal sources. Follow these steps in such case.

1. Unbalanced cable used to feed the unit must have signal connected to

pin 2 of XLR, ground (shield) connected to pin 1 and while 3 must be

disconnected. Wrong wiring of this cable can cause improper operation

resulting in elevated distortion or noise.

2. Set the jumpers to "unbalanced" and disconnect both the trimpots and

potentiometer. This sets the converter to its hights sensitivity (approx -

10dB FS).

3. Setup all other connections.

4. Select desired clock source (sync), either internal or extrenal. If

external wordclock or superclock source is required for systemic reasons,

setup its mode using the DIP switch as described in "Internal jumpers".

The wordclock source can be terminated with internal 75 Ohm resistor

inside the Mytek unit (see: "Internal jumpers"). The termination is

recommended when using long wordclock cables (above 10 ft) and when

the wordclock source is capable handling such termination. Do no

terminate if the source is not capable of high current drive or cable is

short.

4. Select sampling frequency. If wordclock/superclock is used the

sampling frequency has to correspond to external clock frequency (can be

multiple, see: "Internal jumpers")

5. Select output wordlength- 24 bit full output is recommended. 16 and 20

bit output are meant to be used when the destination (recorder such as

CDR, ADAT tape machine) limits the wordlength. 20 bit output is

dithered with flat dither. 16 bit output can either be dithered flat

(recommended for multitrack recording) or 16 bit noiseshaped

(recommended for final masters, printing to CDR or DAT machine).