Download some avi-demos, there you can see the movements of the Surround Scope and Levels:

Surround Meter 5.1.wmv (347 kb)

Surround Moves.wmv (2.842 kb) no sound, but you will see...

The surround scope

As a complex surround mix demands the full attention and concentration of the sound engineer, the accompanying surround display has to show the sound engineer at one glance the sound in its total complexity. This is the reason why the design of this display was kept factual and clear. At the left side above the surround meter, a circular arrangement of the five sound sources (speakers) can be found. This arrangement does not comply with the arrangement of the famous (and dreaded) ITU-circle, but it shows in a mathematically exact manner the present mixing ratio of the five sources to each other by means of the surround ball moving in the circle area. Especially the often very critical balance between the front and rear speakers is shown clearly and immediately here. However, this only refers to the loudness of the five channels to each other and not to their phase relation. The phase relation of a chosen pair of channels will be shown on a correlation display below.

:: Correlation Meter:

The correlation display demonstrates the so-called correlation level. For a better understanding, we will now make a short excursion into the physiology of human hearing. To locate the instruments of the stereo panorama, the ear does not only assess the difference of sound level between the two channels of a stereo-recording; the even more realistic impressions originate from differences in the duration. When taking a closer look of the hearing process in the nature, the reason becomes obvious: To reach the ear which is turned away from the sound’s point of origin, the sound wave has to cover a longer distance, hence arriving there later. From a technical point of view, this delay is perceptible as a phase shift between the channels.

If this phase shift is too big, the signals are being deleted during a mono-reproduction process as positive and negative half-waves of the vibrations compensate each other and the mono sum becomes null. The dramatic thing is that these deletes are different for every instrument; hence the whole mix is shifted. So if you listen to a mix in mono which sounds well in stereo, some instruments are suddenly too low or the reverberation is missing.

:: Level Settings

Reverence Level: 0dBFs, -18 dBFs (european broadcast), -20 dBFs (american broadcast)

With the High OL POINT and Low OL POINT adjust it two borders, between which you can assign different colors to the bar line display. The color Base Color. applies to the segments of the bar line display below the Low OL POINT, the color Low OL Color. to the range between the two adjusted points, and the color High OL Color. to the range above the High OL POINT. Thus the appearance of the announcement can be changed variously and be adapted to your used representation.

Here you can select your digital drivers

:: Sound Driver Settings

After having started the programme, you should first of all relocate the audio channels of your sound card in the available channel routing. Therefore you can either use the internal Windows-MME audio driver or installed ASIO-drivers if they are activated.

The PAS Surround Meter has the ability to approach all known audio drivers; the sampling frequency (48Khz, 44Khz ) or the applied Bit resolution is not of importance here. In the case that a Bit/splitting with 88.2 Khz or 96 Khz is used via an ADAT-Interface, however, the configuration has to be carried out via two separate Opto-ADAT inputs.

A double seizure of the surround inputs with similar input channels will cause an error message!! In this case you have to restart the PAS Sourround Meter and feed the audio channels correctly.

Of course it is also possible to use the surround meter as a usual stereo display.

:: Correlation Settings

In this settings dialogue, the user can carry out his individual adjustment of all parameters of the correlation level indicator.

Display correlation as

Here the user can chose between 2 different types of display diagrams. The bar diagram always refers to null. We are aware that the real correlation does not have a relation to null, but this diagram helps to keep a better overview. Of course this is a matter of taste. This is why we also put the lines display as default.

IEC 268-10 Type I - Nordic N9
IEC 268-10 Type IIa - BBC PPM
IEC268-10 Type IIb - EBU PPM
DIN 45406

dB Full Scale

K-System

K-20 K-System

K-14K-System

K-12-System

PAS-Products recommend these soundcards:

FOR DIGITAL : (S/P-Dif, optical und coax, ADAT interface, AES/EBU In/Out )

RME DIGI 96/8 PAD BROADCAST

RME DIGI 96/8 PAD

FOR ANALOG : (balanced analogue I/O (8x XLR/TRS mic/line with 48V phantom power),ADAT I/O (up to 48kHz), 8 channels (up to 96 KHz) switchable to S/PDIF optical (TOSlink), S/PDIF I/O (coax), AES/EBU I/O,)

ESI MaXiO EX8000

MOTU TRAVELER

:: For the operations of the PAS Surround meter the following minimum requirements are necessary:

Hardware: