Avoid These Locations, False Alarms | Universal SS-785, SS-790

AVOID THESE LOCATIONS

•the garage – products of combustion are present when you start your automobile.

•near appliances or areas where normal combustion regularly occurs (kitchens, near furnaces, gas hot water heaters). Use smoke alarms with Silence Control for these areas.

•in areas with high humidity, like bathrooms or areas near dishwashers or washing machines. Install at least 3 feet (0.9 meters) away from these areas.

•in areas of turbulent air such as air returns or heating and cooling supply vents, smoke alarms shall not be located where airflow prevents operation of the alarms.

•in extremely dusty, dirty or insect-infested areas. Loose particles interfere with smoke alarm operation.

•in areas where temperature may fall below 400F (4.40C) or rise above 1000F (37.80C).

•closer than 1 foot (0.3m) from fluorescent lights, electrical "noise" and flickering may affect the alarm's operation.

•closer than 3 feet (0.9m) horizontal path from the tip of the blade of a ceiling suspended (paddle) fan.

•on a poorly insulated ceiling or exterior wall (mount smoke alarm on an inside wall).

MODEL SS-785 - THIS SMOKE ALARM WILL NOT WORK WITHOUT 120 VAC POWER PROPERLY CONNECTED. THE SMOKE ALARM SHOULD BE TESTED WHEN INSTALLED AND THEN TESTED WEEKLY AFTER THAT.

MODEL SS-790 - THIS SMOKE ALARM WILL NOT WORK WITHOUT 120 VAC POWER AND A GOOD BATTERY PROPERLY INSTALLED. THE SMOKE ALARM SHOULD BE TESTED WHEN INSTALLED AND THEN TESTED WEEKLY AFTER THAT.

FALSE ALARMS

The smoke alarm is designed to minimize false alarms. Smoking will not normally set off the alarm unless smoke is blown directly into the smoke alarm. Combustion particles from cooking may set off the alarm if the smoke alarm is located close to the kitchen cooking surface. Large quantities of combustion particles are generated from spills or broiling.

If the smoke alarm does sound, check for fires first. If a fire is discovered, get out and call the fire department. If no fire is present, check to see if one of the reasons listed above may have caused the alarm.

INSTALLATION

Installation of this unit must conform to the electrical codes in your area; Article 760 of the National Electrical Code, NFPA 72, 101; SBC (SBCCI); UBC (ICBO); NBC (BOCA): OTFDC (CABO), and any other local or building codes that may apply. Wiring and installation must be performed by a licensed electrician. Failure to follow these guidelines may result in injury or property damage.

This unit must be powered by a 24-hour, 120V AC 60Hz circuit. Be sure the circuit cannot be turned off by a switch, dimmer or ground fault circuit interrupter. Failure to connect this unit to a 24-hour circuit may prevent it from providing constant protection.

IMPORTANT: Do not subject this smoke alarm to megger, high voltage or high-pot tests. Remove the smoke alarm(s) before high-potting tests occur on the circuit or system. (Ref. Section 550-17, National Electric Code, 2002 Edition).

ELECTRICAL SHOCK HAZARD

Turn off power to the area where you will install this unit at the circuit breaker or fuse box before beginning installation. Failure to turn off the power before installation may result in serious electrical shock, injury or death.

TAMPER LOCKING PIN: To make your smoke alarm somewhat tamper resistant, a locking pin has been provided. Using this pin will deter children and others from removing the alarm from the mounting ring. To use the pin, insert it into the hole in the side of the alarm after it has been installed on the mounting ring. Note that the tamper pin will have to be removed in order to change the battery, which can be done easily with a pair of long nose pliers. Using the long nose pliers, pull the pin out of the hole. It is now possible to remove the smoke alarm from the mounting ring.

1.Turn the smoke alarm counterclockwise to remove it from the mounting ring. NOTE: The smoke alarm is sealed and the cover is not removable. Your smoke alarm is also equipped with a safety device which prevents mounting unless a battery is installed. If your smoke alarm will not lock onto the mounting ring, check to make sure a battery is installed.

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SS-785, SS-790 specifications

Universal SS-790 and SS-785 are advanced models of satellite communication systems that have garnered significant attention in the realm of telecommunications and data transfer. These systems are designed to provide seamless connectivity and enhanced performance, making them ideal for both commercial and governmental applications.

The Universal SS-790 is equipped with cutting-edge features aimed at enhancing user experience and operational efficiency. One of its standout features is its high throughput capability, which allows for rapid data transfer rates, ensuring reliable communication even in challenging environments. This model incorporates advanced modulation schemes and error correction technologies, such as DVB-S2X, to optimize bandwidth usage and improve overall signal quality.

In addition to its robust performance, the SS-790 is designed with flexibility in mind. It supports multiple frequency bands, including Ka-band, Ku-band, and C-band, catering to various operational needs and geographic requirements. This versatility enables users to adapt the system for different applications, from broadcasting to mobile communications.

On the other hand, the Universal SS-785 is more compact yet equally powerful, making it suitable for mobile and remote operations. This model emphasizes portability without compromising performance. One of its key characteristics is its ease of deployment, allowing users to set up satellite links quickly and efficiently. The SS-785 features automatic tracking capabilities, which ensures stable connections by adjusting the antenna's line of sight as satellites move.

Both models utilize advanced technologies such as software-defined networking (SDN), which enhances the ability to manage and optimize network performance dynamically. Through SDN integration, users can easily scale their operations and adapt to changing connectivity requirements.

Moreover, Universal’s commitment to security is evident in both SS-790 and SS-785, as they are equipped with encryption protocols to safeguard sensitive data transmissions. This added layer of security is crucial for organizations handling classified information or conducting sensitive operations.

In summary, Universal SS-790 and SS-785 represent the pinnacle of satellite communication technology, combining high-speed data transfer, flexibility, portability, and robust security features. Their innovative designs and capabilities make them invaluable tools for a wide array of applications, bridging the gap between remote locations and reliable connectivity. Whether for emergency response, broadcasting, or enterprise-level communications, these systems are setting new standards in the satellite communications landscape.