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13

Control Elements

MF+ and MF-

The midrange bands elevate the PASSEQ to a complete combination of filter options that 
classic passive designs do not offer. Both midrange bands exhibit peak filter character-
istics, that is, when viewed from the boost band, the frequency curve appears as bell-
shaped slopes above and below the chosen frequency range. The slope or Q-value is, 
again, not variable, but attuned through the choice and configuration of the passive fil-
ter‘s components for a maximum in musical ef ciency, relying in the PASSEQ on its devel-
oper, Wolfgang Neumann‘s years of musical experience. The middle bands‘ peak struc-
ture is chosen for a clean separation of LF and HF bands. Were the choice here to be for a 
shelving filter design, too many neighboring frequencies would be processed, with result-
ing undesirable influences extending into LF and HF bands. Along with this is the simple 
fact that a midrange peak filter characteristic is accompanied by a more easily focused 
center point processing of critical voice and instrument fundamental frequencies. 

HF+ and HF-

PASSEQ’s high frequency bands have a different layout for the cut and boost ranges: The 
HF- cut band exhibits a (wide-band) shelving characteristic, while the HF+ boost band 
exhibits a variable Q, peak filter characteristic. 

As seen above, one can also note and intensification in choice of frequencies in the 
high range. Here the same reasons apply as in prior cases: Individually designed and 
constructed coil-condenser-resistor configurations result in slightly differing sonic 
characteristics.

Q (HF+ Band)

Like already mentioned in the last chapter, with the HF+ Band you got the possibility to 
change the Q-factor (value), thus the bandwidth, thanks to the Q-control. The control 
range here ranges between 0.1 Q and 1.0 Q. Again all settings can be adjusted through a 
41 step detented potentiometer.

With the proportional or variable Q principle, boost control settings would apply only if 
the HF+ Q were to be set at Q=1.0 (control set fully clockwise). Were the value to be re-
duced (thus increasing the bandwidth), the boost would also be reduced. This can lead to 
a situation wherein, for example, a HF+ Q setting of 0.1 and a boost of 3dB would result 
in effectively no audible boost in the chosen frequency—at this value the Q value resides 
at about 0.3dB. With this Q value, don’t hesitate to turn turn up the HF+ band boost con-
trol to its full 12.5 dB setting—this results in an actual overall increase of around 3.5 dB. 
Narrower Q settings, for example, to 0.6, result in further level boosts again. The advan-
tage of a Proportional-Q design compared to Constant-Q design rests with the musically 
superior way it functions. The acoustic energy below the bell-shaped curve remains es-
sentially the same and thereby it retains the balance of high frequencies in relation to the 
entire frequency spectrum while experimenting with different Q values. While it is true 
that one must think independently of the scaled gain dB values of the HF+ boost switch 
in such cases (because these only apply to a Q value of 1), the result is a simpler, more 
musically sensible and worthwhile way to work that does not require continual additional 
corrections of the Q values.

Содержание Passeq

Страница 1: ...PASSEQ Passive Mastering Equalizer Test Report Manual Handbuch...

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Страница 3: ...PASSEQ Passive Mastering Equalizer Manual...

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Страница 5: ...dth 6 Passive EQs 7 Installation 8 Voltage Selection 8 First Steps 8 Cabling Rear Side 9 XLR inputs and outputs 9 Control Elements 11 Layout of Control Elements 12 Frequency 12 LF and LF 12 MF and MF...

Страница 6: ...are under continuous development and improvement Technical specifications are subject to change Package Contents PASSEQ Passive Mastering Equalizer Power cord Manual The PASSEQ Equalizer is available...

Страница 7: ...hoice of frequencies All passive filter components variable resistor capacitor and coil deliver excellent sonic characteristics An important part of this process is played by coil and condenser loadin...

Страница 8: ...ring DVD in the USA Simon Heyworth s Super Audio Mastering in the UK Galaxy Studios in Belgium and the legendary Wisseloord in the Netherlands for instance The 120 volt technology is based on op amps...

Страница 9: ...to doubling the acoustic power 6 dB correspond to twice the sound pressure level and 10dB correspond to twice the perceived loudness When it comes to volume the 120 volt technology exhibits a performa...

Страница 10: ...is usually about 3dB less with the overall increase set to maximum This gives the typical rising form of the shelf filter s response curve Peak Filters A peak filter boosts or cuts a chosen frequency...

Страница 11: ...l energy of the attenuated signal level though it is not part of the actual filter circuit Passive filters react differently than active filters mostly due to the saturation and load ing characteristi...

Страница 12: ...wer cord to the 3 pin IEC socket The transformer power cord and IEC socket all comply to the VDE UL and CSA regulations The PASSEQ should not be installed in close proximity to equipment that emits ma...

Страница 13: ...ection is necessary the correct polarity of the conductors needs to be observed Ground Lift switch to avoid ground loops On the rear panel of the PASSEQ Mastering Equalizer see page 10 is also a GND L...

Страница 14: ...MAINS XLRs Balanced 4dBu 1 GND 2 HOT 3 COLD WARNING AVIS RISQUE DE CHOC LECTRIQUE NE PAS OUVRIR RISK OF ELECTRIC SHOCK D O N O T O P E N CAUTION Serial Number Made in Germany 115VAC 230VAC 50Hz 60Hz P...

Страница 15: ...1 6 5 1 7 0 0 2 0 3 0 6 1 1 1 7 2 6 3 8 5 7 9 2 1 2 5 0 0 2 0 5 1 1 7 2 6 3 8 5 3 7 7 1 1 1 4 5 1 0 0 9 0 8 0 7 0 6 0 45 0 35 0 2 5 0 1 7 0 1 2 0 1 Interval dB dB dB dB dB dB dB Hz Hz Hz Hz Hz Hz pass...

Страница 16: ...LF band encom passes a range of 10Hz to 550Hz The maximum available increase in this LF boost band is 17 dB while the maximum reduction of the LF band is 22dB Optically these filter bands may be repre...

Страница 17: ...ations result in slightly differing sonic characteristics Q HF Band Like already mentioned in the last chapter with the HF Band you got the possibility to change the Q factor value thus the bandwidth...

Страница 18: ...e the out put level up to 10dB These controls are also 41 step detented potentiometers Channel Switch The two centrally located orange lit switches activate or deactivate the corresponding left and ri...

Страница 19: ...n and Yang principal means ideally to consider always such implied repercussions of work in one frequency for example that in working to enhance warmth that one might want to avoid losing presence Har...

Страница 20: ...B C 91 8 dBu Noise A weighted Gain 0 dBu EQ 0dB B C 95 2 dBu Noise CCIR Gain 0 dBu EQ 0dB B C 86 2 dBu THD N Gain 0 dBu EQ 0dB B C 102 dB Common Mode Rejection 60dBu at 1 kHz Gain 0 dBu EQ 0dB B C Tr...

Страница 21: ...of time Unplug the power chord from the mains to cut power supply to the unit Always make sure that the mains plug is easily accessible Opening the unit Simply put DON T if you are not a certified SPL...

Страница 22: ...ts or those with identical specifications as the originals Incorrectly substituted parts can lead to fire electrical shock or other dangers including further equipment damage Safety inspection Be sure...

Страница 23: ...copied or reproduced in any manner in part or fully without prior authorization by SPL Sound Performance Lab SPL con tinuously strives to improve its products and reserves the right to modify the prod...

Страница 24: ...0 17 0 12 0 1 I n t e r v a l dB dB dB dB dB dB dB Hz Hz Hz Hz Hz Hz passive mastering equalizer PASSEQ Sound Performance Lab Model 1650 A Wolf Neumann Design Q HF HF MF MF LF LF Output 120V DC Audio...

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