Sony SDDS Print Master manual Sdds Print Master Guidelines, Page 24

Page 24

8 Subwoofers

of its low pass filter, or even eliminate the synthesized signal altogether, depending on the capabilities of the screen loudspeakers and the auditorium's acoustical response.

8.10Subwoofer polarity.

As a side note, it is often difficult to determine the correct polarity of the subwoofer, digital or analogue. Even if pink noise is sent to the subwoofer and centre channels simultaneously, in many cases there will be no apparent difference in combined wide band SPL measurement when switching subwoofer polarity. I n the end the best polarity may come down to an aesthetic judgement on the part of the cinema technician, based on listening to actual films.

8.11R ule-of-thumb methods.

Measuring the level of a subwoofer with a wide-band SPL meter is of questionable value except as a rule-of-thumb method to re-check a theatre that has already been properly calibrated. T he reasons for this include the fact that the measured acoustical output of a subwoofer (or any loudspeaker system) depends on the bandwidth of the signal ultimately being measured. T hat will be affected by the bandwidth of the input test signal, any equalizer or low pass filter settings, the auditorium's response, the loudspeaker cabinet response, and the accuracy of the C weighting response at low frequencies of the SPL meter used for the measurement. A subwoofer signal with a wider bandwidth may measure the same as another with a narrower bandwidth but higher level (as indicated by analyser bands within the pass band of the subwoofer), using the same speaker cabinet. Considering the DFP-D3000, the bandwidth of the pink noise sent to the subwoofer is affected by a low pass filter that can be adjusted from 80Hz to 330Hz—a difference of three octaves or eight times in acoustical energy. No standards exist for such wide band SPL measurements of subwoofers.

Although the measured SPL of wide band pink noise through the subwoofer will change if the subwoofer's low pass filter is adjusted, this will not change the actual playback level of the digital LFE channel from film. So long as the filter frequency is not set too low, the signals recorded on the dubbing stage will determine what is heard in the cinema when the proper in-band gain difference is established acoustically, as previously described. T his is why an engineer who uses a wide-band SPL meter to set the digital subwoofer level is engaging in self-deception. I n general, a low pass filter setting for the digital subwoofer (LFE) of 125 Hz, 160 Hz, or even

200 Hz should serve in most installations, and all settings should sound the same when playing digital multichannel material. A low pass filter setting of 125 Hz will give a wide band subwoofer SPL pink noise measurement of approximately 91 dBc. T his rule-of- thumb result is only approximate and should not be used for the primary alignment of a theatre.

SDDS Print Master Guidelines, Page 24 of 26

Image 24
Contents Sdds Print Master Guidelines Contents Glossary of T erms Sdds Print Master Format DashLeft Left Cent RE RI GHT Cent RE Subwoofer Sdds Print Master Guidelines, Page 6 Sdds Print Master Guidelines, Page 7 Sdds Print Master Guidelines, Page 8 Sdds Print Master Guidelines, Page 9 Dash Machines Care and Use Dtrs Machines Care and Use DT RS Machines Care and Use Sdds Print Master Guidelines, Page 13 Akai DD8 machines Care and Use 0dBu or -4VU Sdds Print Master Guidelines, Page 16 Sdds The industrys best sounding format Hear the DifferenceSdds Print Master Guidelines, Page 18 Estimonials Dolby level versus operating level. Historical notes Subwoofers Sdds Print Master Guidelines, Page 22 Sdds Print Master Guidelines, Page 23 Sdds Print Master Guidelines, Page 24 Glossary of Terms SPLW .SDDS.COM