Integrator DNR Laboratories was able to replace over 30 elements of a pre-existing wireless system with just eight RF Venue components.
This included: two Diversity Fin Antennas, two Band-Pass Filters, two active In-Line Amplifiers, a 4ZONE antenna combiner, and a DISTRO4 antenna distribution system – to create a flawless RF system for the 1,750-seat cathedral.
The wireless microphone system at the Cathedral of St. Joseph, the seat of the Archdiocese of Hartford in Hartford, CT, was continuously plagued by dropouts and RF interference, detracting from the solemnity that the structure and its mission called for.
“The Archbishop himself would comment on the fact that he found it difficult if not impossible to get through a sermon without a dropout or interference noise,” observed Don Gamsjager, founder and CEO of DNR Labs.
Gamsjager was called in to rectify the problem as part of a larger upgrade of the cathedral’s sound system and FOH console last year. “It was a major problem. Fortunately, we had RF Venue.”
Gamsjager said the existing RF distribution system, installed about 20 years ago, was woefully inadequate and overly complicated, with over 30 components, such as the eight paddle antennas installed throughout the venue.
“The church is over 400 feet from end to end, and they also hold part of services just outside the main entrance, so there was a lot of space to cover,” he said.
Built in 1962 in the international interpretation of the classic cruciform Gothic style, the cathedral is the largest between those in New York and Boston and seats over 1,750 worshippers in its large expanse of spectacular stained-glass windows.
Gamsjager conferred with RF Venue Sales Director Adam Brass and the RF Venue engineering team and came up with a far simpler and more elegant RF solution.
DNR Labs installed two Diversity Fin Antennas, two passive inline Band-Pass Filters, two active In-Line Amplifiers, a 4ZONE antenna combiner, and a DISTRO4 antenna distribution system, all from RF Venue’s comprehensive line of essential wireless audio accessories that work with any brand and any model of wireless microphone and IEM system.
The two antennas are able to completely cover the church’s interior and part of its exterior worship spaces (one Diversity Fin antenna was installed outdoors in a weatherproof enclosure) completely without dropouts.
In the process, said Gamsjager, it was also able to eliminate old unneeded long coaxial cable runs, with distance defied for the new antenna runs by the active In-Line Amplifiers, designed to compensate for RF antenna signal loss on lengthy coax runs.
The band-pass filters, which are tuned to 470-530MHz, Gamsjager called lifesavers in a dense urban RF environment like Hartford.
The signals captured by the patented cross-polarised design of two Diversity Fin Antennas, which offer true diversity reception in a single package, are combined in the 4ZONE and then distributed to the wireless microphone antenna inputs by the DISTRO4, which also provides power to the receivers.
Along with the Sennheiser EW-DX wireless microphone system that DNR Labs also installed as part of the project, the church is now completely dropout-free.
“We replaced an enormous amount of equipment with a truly minimal amount of gear and got perfect performance,” Gamsjager added. “The cathedral’s A1, Dave Raymond, says it’s the first time the church has ever experienced a completely dropout-free service.
“They’re able to take the wireless mics to any location in the church and have a perfect experience with it.”
But perhaps the highest accolade came from Archbishop Leonard Paul Blair himself, who turned to Gamsjager after his first sermon after the installation and said, “I now have complete confidence in this microphone.”
“You can’t ask for higher praise than that,” Gamsjager concluded.