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dCS 950 / 952 User Manual Manual for Software Version 6.2x

dCS Ltd 22

May 2000

Manual part no: DOC0029526B1 Page 30 Document No: OS-MA-D0002-952.6B1

Contact dCS on + 44 1799 531 999 email to: more@dcsltd.co.uk

(inside the UK replace + 44 with 0) web site: www.dcsltd.co.uk

dCS 950 / 952 TECHNICAL INFORMATION

Anti Image Filtering

The dCS 950 / 952 offer a choice of 4 anti-image filters on all sample rates.

These filters affect the ultrasonic part of the spectrum - 20 kHz upwards.

The unit is a DAC, with an output data rate set by the interface standard used.

The bandwidth of the oversampling converter used is high, and so any signals

that are in the input data will produce Nyquist images

in the output signal if they

are not removed by filtering. The demands on this anti-image filter can be quite

severe at the lower (“normal”) sample rates - it must pass signals in the audio

band (0 - 20 kHz) unimpaired, but it must remove images above Fs/2. This can

result in a very sharp filter, and it is an unavoidable mathematical result that

sharp filters have a poor, ringing, transient response. One effect of the ringing is

to spread the energy in a transient over a significant period of time (it can be up

to 1 ms). This seems to affect the stereo image that the ear would otherwise

form.

One can trade off filter roll-off and energy smear - more relaxed roll-off gives

less energy smear, but it may allow some of the signals in the input data to form

audible images in the output signal. A signal containing Nyquist images can be

corrected only by applying a sharp low-pass filter. However, as far as the ear is

concerned, this may not matter. The ear can tell the frequency of a signal - up to

a point. As the frequency rises, the accuracy with which the ear can tell what the

frequency is decreases, and above a limit, all the ear can tell is that there is a

signal, and it is above ... kHz. It can tell no more. So - it may be that a small

amount of Nyquist imaging is acceptable to the ear.

The filters that we have included give increasingly good energy smear

performance, and consequently have increasingly relaxed roll off. FiLT1 gives

the sharpest roll off, with no Nyquist images, but the worst energy smear. Then

as the number increases the smear decreases, but the imaging increases. Try

them, to see which you prefer.

You may find that for different material, different filters are appropriate - and you

may find that for different stages in the recording and mastering process,

different filters are appropriate.

Our users tell us that they find the ability to select different anti-image filters very

useful. Generally for classical music, number 2 is preferred while 3 & 4 are

popular with users recording rock and jazz. Opinions differ widely – so try them

for yourself.

The dCS 950 / 952 uses linear phase FIR filters to avoid the limit cycle problems

that come with many IIR filters. Linear phase gives filters a symmetrical transient

response before and after a transient (“pre-ringing”). The passband may or may

not have a ripple

, depending on the filter being used. The stop band is typically

below –110dB0 and can be as low as –130dB0.

See, for example “Principles of Digital Audio”, 3rd Edition, by Ken C Pohlmann (McGraw-Hill Inc, 1995)

Filters always have some ripple. For “zero ripple” filters this is in the µdB to pdB region.