Field Work

UPS: remember the cameras

Powering the cameras (or their power supply) from a UPS ensures that the Multi-Media unit can continue to record video during a power outage, whether the outage is due to your utility or to a criminal act.

Honeywell recommends that a line conditioning uninterruptible power supply (UPS) be used with the Multi-Media unit and the cameras connected to the unit.

Fig. 14. Plugging-in a Multi-Media unit.

Without a UPS?

When a UPS is not used, the Multi-Media unit should be connected to a dedicated ground circuit. The outlet and breaker box should be marked as such. Nothing else should be plugged into this circuit.

2.4.1Powering Up and Down

Wait after turning on a unit

During the two minutes a REMM unit needs to initialize, it is good practice to not turn it off.

A “unit recovery” process can be triggered if the unit is turned off before initialization is complete. The end of the initialization is signaled by a double-beepfrom the unit.

!15 The power up sequence recommended by Honeywell

1.Plug the Multi-Media unit and its cameras into a power source, preferably an uninterruptible power supply (UPS).

2.Turn on camera(s) and other hardware, connected to the unit.

3.Turn on the Multi-Media unit.

!16 The power down sequence

1.Press and hold the power switch on the front of the Multi-Media unit for up to five seconds.

2.Unplug the Multi-Media unit from the uninterruptible power supply (UPS) or wall outlet.

3.Power down the camera(s) and/or other hardware.

4.Power down the UPS, if in use.

If cameras are turned on after the Multi-Media unit, they will not be auto-detected by the unit.

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Honeywell K9696V2 installation instructions Powering Up and Down
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K9696V2 specifications

The Honeywell K9696V2 is a state-of-the-art temperature control device designed for versatile applications in various heating and cooling systems. This advanced controller is known for its precision, reliability, and user-friendly interface, making it an essential component for modern HVAC setups.

One of the main features of the K9696V2 is its ability to support multiple control strategies. It can effectively manage single-stage and multi-stage heating and cooling systems, allowing it to be used in a wide range of residential and commercial applications. This flexibility ensures that users can easily integrate the controller into existing setups without significant modifications.

The K9696V2 incorporates advanced technologies such as microprocessor-based control. This ensures precise temperature management, enhancing comfort while minimizing energy consumption. It features a built-in temperature sensor that provides accurate readings, ensuring that the system operates within the desired range. Users can set temperature thresholds that the controller will maintain, making it ideal for environments where temperature stability is critical.

Another notable characteristic of the Honeywell K9696V2 is its user-friendly interface. The device is equipped with an intuitive digital display that provides real-time temperature readings and system status. Additionally, users can easily navigate through the menu to adjust settings without the need for complicated configurations, which is a significant advantage for both technicians and end-users.

The K9696V2 also offers robust communication capabilities. With support for various communication protocols, including Modbus and BACnet, the device can integrate seamlessly with building management systems. This connectivity allows for remote monitoring and control, giving facility managers greater oversight of their HVAC operations.

Finally, the Honeywell K9696V2 is designed with energy efficiency in mind. By optimizing system performance and providing precise control, this controller helps to reduce energy consumption, translating to cost savings for users. Its durable build ensures longevity, making it a worthy investment for those seeking reliable temperature control solutions.

Overall, the Honeywell K9696V2 stands out in the market due to its advanced features, adaptability, and user-centric design, making it a preferred choice for temperature control in a variety of settings.
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