QSC Audio S series user manual Synchronizing to AES/EBU

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Connections: Synchronizing the CobraNet Network to an AES/EBU Stream

SYNCHRONIZING TO AES/EBU

Method 2: Use the recovered AES 48 kHz clock as an “external clock” source. When the jumper at header J37 is set to “AES”, the CobraNet interface uses the recovered 48 kHz clock at the first XLR connector (inputs 1 and

2)as the external synchronization clock. This method is similar to the “external synch” or “buddy link” mode of clock distribution in which an external clock is applied to the “synch input” BNC connectors on the rear panel of the RAVE. This method requires that the RAVE device be acting as the network conductor and be configured for external synchronization mode. External synchronization mode can be invoked by setting the left pair of hexadecimal switches on the RAVE’s front panel to “80” or above. External synchronization can also be configured through software via SNMP.

Header J37 is located toward the far left side of the RAVE PCB just above the power supply capacitors and to the left of U137. The jumper configuration for implementing the “external clock” mode of AES synchronization is shown below.

The advantage to implementing the “external clock” method of AES synchronization is that the on-board PLL is still available should the RAVE lose the conductor role. This allows the RAVE device to function properly in the performer role. When acting as the conductor, local audio clocks are derived from the master clock sourced by the on-board PLL. The PLL is synchronized to an external clock, which happens to be the recovered 48 kHz clock from the AES receiver at the channel 1 input.

The disadvantage to using the “external clock” method is that the unit must be configured for external synchro- nization mode. Audio clocks are derived indirectly from the recovered 48 kHz AES stream.

It should be noted that external synchronization of the CobraNet network requires the on-board PLL. A RAVE AES/EBU device acting as the system conductor, which is synchronizing to an external clock applied to the rear panel “synch input”, must not have its jumper at header J39 configured for “AES clock”. This is a synchroniza- tion violation since the device cannot track the external clock source.

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Contents Rave Explication DES Symboles Graphiques Explanation of Graphical SymbolsErklärung DER Graphischen Symbole Table of Contents Introduction Overview Introduction Illustration of Rave units Introduction Glossary Introduction Glossary Introduction How It Works Outs Introduction How It WorksChannel Routing Introduction Channel RoutingRequired tools #2 Phillips screwdriver Input Level Sensitivity Rave 161s-24 and 188s-24 only Ethernet Connection ALL Models Installation Rack MountingConnections 100BASE-TX Ethernet Rack Mounting ALL ModelsAnalog Audio Connections Connections Analog Audio Inputs/Outputs Rave 160/161/188Digital Audio Connections Connections Digital Audio Inputs/Outputs Rave 80/81/88 Fuses AC Power SLAVE/SYNC Input RS-232 Port Redundant ConfigurationSynchronizing to AES/EBU Synchronizing to AES/EBU Status Indicators Operation Network Activity Status IndicatorsTx Error Audio Signal Level Indicators Operation Audio Signal Level IndicatorsAudio Metering Bundle Assignment Error ReportingBundle Activity Program and Software Kill Operation Program/Software Kill, RoutingRouting Operation Routing Switched Networks Network Design Considerations Switched Networks Repeater Networks Network Design Considerations Repeater NetworksGeneral SpecificationsRear Panel Connections Audio Buffering Ethernet Cabling AppendixRS-232 Port Information Network Hardware Manufacturers CAT-5 UTP Manufacturers Appendix ResourcesProduct Warranty How to Contact QSC Audio Products
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