Use the template to mark the position for the mounting hole at the selected location. If you are not certain that no obstruction exists (electrical wiring. plumbing. etc.), you should start by cutting a small hole in the center of your penciled mounting hole with a drywall or keyhole saw, cutting at a 45 degree angle towards the inside of the hole. Cutting a small hole at this angle will make drywall repair much easier. Once you have determined there are no obstructions in your desired mounting location, start cutting the finished hole at a 90 degree angle to the wall/ceiling surface.

Route the speaker wires from your amplifier to your opening. Avoid routing the speaker wire near electrical wires. If you have to run them parallel, make certain to space the speaker wires at least 2 feet from the AC line. Do not nail or staple the speaker wire.

Preparing your OWI Speakers for Mounting

Insert a paper clip into one of the grille openings, then pull upwards to remove the grille.

Be sure to position the four Mounting Tabs on your OWI speaker inward, then insert the four screws (supplied) from the front of the speaker into the screw opening.

Attach the speaker wires to the speaker terminals.

Insert your OWI speaker into the opening and tighten the four screws. As you tighten the screws, the tabs will automatically flip into an outward position thereby clamping the drywall between the feet and the flange of the speaker. BE CAREFUL NOT TO OVER TIGHTEN, OVER TIGHTENING MAY WARP THE BAFFLE, CRACK THE WALL, CAUSE THE FLANGE TO DISTORT AND MAKE THE GRILL DIFFICULT TO INSTALL.

Push the grille firmly into the slot in the speaker baffle.

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Filename:IC5_6 MANUAL

 

08/29/07

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OWI IC5, IC6 owner manual Preparing your OWI Speakers for Mounting

IC6, IC5 specifications

OWI IC5 and IC6 are integral components of the OWI (Open Wireless Interface) framework, designed to enhance wireless communication systems. These integrated circuits are known for their versatility, efficiency, and cutting-edge technology. They cater to a wide variety of applications, including smart home devices, industrial automation, and IoT solutions.

The OWI IC5 is characterized by its robust architecture and user-friendly interface. It supports multiple communication protocols, ensuring compatibility with various devices and systems, which is crucial in today's interconnected world. One of the standout features of IC5 is its low power consumption, making it an ideal choice for battery-operated devices. The IC5 integrates advanced RF (radio frequency) technologies, enabling reliable data transmission over long distances. This makes it a popular choice for applications that require constant connectivity without frequent maintenance.

On the other hand, the OWI IC6 takes things a step further with enhanced processing capabilities and an expanded feature set. IC6 is designed with a focus on scalability, allowing developers to customize it according to specific project requirements. It supports advanced security protocols, ensuring that data transmission remains secure from potential threats. This focus on security is critical as the volume of data transmitted wirelessly continues to grow, increasing vulnerabilities in online communications.

Both IC5 and IC6 utilize state-of-the-art modulation techniques that improve data throughput and minimize latency. Furthermore, they incorporate smart antenna technology, which optimizes signal strength and reliability. This is particularly beneficial in urban environments, where interference from other electronic devices can impact performance.

Additionally, the OWI family is built on open standards, allowing for seamless integration with various platforms and reducing vendor lock-in. Developers can leverage this openness to create innovative applications without being constrained by proprietary systems.

In summary, OWI IC5 and IC6 are powerful tools in the realm of wireless communications. With their advanced features, low power consumption, and robust security measures, they provide a solid foundation for developing next-generation wireless applications. As the demand for reliable and efficient communication continues to rise, these integrated circuits will play a vital role in shaping the future of connectivity.