[Hurricane Recovery Support](https://microlabtech.com/hurricane-recovery-support.html) | Email us at HurricaneRelief@rfindustries.com
[Hurricane Recovery Support](https://microlabtech.com/hurricane-recovery-support.html) | Email us at HurricaneRelief@rfindustries.com
powered by bulletin
<center><img src=”{{media url=wysiwyg/active_solutions/activesolution2.jpg}}” alt=”” /></center>
<p style=”text-align: justify;”><br /> Microlab products have been used in wireless infrastructure since the beginning of the industry. As a result, we understand that industry requirements continually evolves. We constantly develop new products to support new modulation schemes, frequencies, and other wireless infrastructure changes. Leveraging its deep technical background in wireless, Microlab released its first active component, the Active DAS Control Rack in 2014. It provides remote monitoring and level control between an RF source and a fiber DAS. As a follow-up in 2015, Microlab launched a group dedicated to Active Solutions.</p>
<p style=”text-align: justify;”>Microlab&rsquo;s Active product group has developed a platform that enables rapid development of products that will address various gaps in the telecom and public safety market including RF monitoring and system performance. This platform will also allow integration with the next generation of wireless equipment.<!– The first product to be released on this platform is the Passive Systems Monitor. This device resolves a long unfulfilled wish of wireless providers and system integrators: a simple and consistent way to monitor multiple RF sources, and provide remote diagnostics when problems arise in the DAS. Initially focusing on the world-wide Passive Systems frequencies from 60 MHz to 1 GHz, this system is also capable of monitoring commercial wireless DAS signals from 600 MHz to 3 GHz.<br /> –><br /><br /></p>
<table border=”0″>
<tbody>
<tr>
<td><center><a href=”https://microlabtech.com/active-solutions/gps-repeater-solutions/repeater-system.html”><img src=”{{media url=wysiwyg/active_solutions/GPSR_system2.jpg}}” alt=”” width=”250″ height=”250″ /></a></center></td>
<td>
<h3><a href=”https://microlabtech.com/active-solutions/gps-repeater-solutions/repeater-system.html”>Digital GPS Signal Repeater System</a></h3>
<p style=”text-align: justify;”>Microlab&rsquo;s digital GPS repeater system can be used for cellular communications UTC synchronization for locations where the GPS signals are not readily available. The system is built with Microlab&rsquo;s patent-pending Digital SkyTiming Technology&trade; offering industry-first GPS signal transmission via CPRI for highly accurate timing and location. The system offers several configurations for indoor and outdoor applications.</p>
</td>
</tr>
<tr>
<td><center><a href=”/active-solutions/gps-repeater-solutions/signal-splitter.html”> <img src=”{{media url=wysiwyg/active_solutions/GPSS216_Rev2.JPG}}” alt=”” /></a></center></td>
<td>
<h3><a href=”https://microlabtech.com/active-solutions/gps-repeater-solutions/signal-splitter.html”>Lossless GPS Signal Splitter</a></h3>
<p style=”text-align: justify;”>Microlab&rsquo;s Lossless GPS Signal Splitters can be used to distribute UTC synchronization to up to 32 remote units located where the GPS signals are available via coax. The GPS signal quality and antenna status are actively monitored by this system, with auto switch-over to the backup antenna upon fault detection. The splitters can be combined with the Microlab Digital GPS Signal Repeater to expand the RF outputs. It offers 16-channel and 32-channel options.</p>
</td>
</tr>
<tr>
<td><center><a href=”/active-solution/smartcoupler.html”> <img src=”{{media url=wysiwyg/active_solutions/smartcoupler.jpg}}” alt=”” width=”250″ height=”250″ /></a></center></td>
<td>
<h3><a href=”/active-solution/smartcoupler.html”>SmartCoupler </a></h3>
<p style=”text-align: justify;”>Microlab&rsquo;s SmartCoupler is the world&rsquo;s first Radio Frequency coupler with embedded signal monitoring intelligence. SmartCoupler capitalizes on the Internet of Things ecosystem to monitor the integrity of transmission lines and antennas, deep into a building for emergency communications systems.</p>
</td>
</tr>
</tbody>
</table>

No products were found matching your selection.

Title

Go to Top