Emerson MAN -0016-00, UVC120 Unit IV System Operation, Startup Procedure, Checkout Procedure

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Figure 11c - Relay Position

Figure 11d - Relay Settings

Unit IV SYSTEM OPERATION

STARTUP PROCEDURE

CAUTION

Placing the controller in the Bypass mode inhibits its outputs, preventing actuation of any extinguishing or alarm circuits that are connected. For maximum safety, however, secure output loads (remove power from any devices that would normally be actuated by the system) before manually testing the system. Remember to place this same equipment back into service when the test is complete.

1.After setting the DIP switches and making all electrical connections, apply power to the controller.

2.Perform the Checkout Procedure.

3.If the controller appears to be operating normally (performs power-up countdown and then shows ‘Nor’ on the display), remove mechanical blocking devices and restore power to the extinguishing loads.

NOTE

Be sure that the detector is correctly aimed at the potential hazard and that no obstructions interfere with its line of vision. UV absorbing gases should not exist between the detector and the potential hazard.

CHECKOUT PROCEDURE

CAUTION

W hen testing the system, be sure to secure all output devices to prevent unwanted activation of this equipment and remember to place these same devices back into service when the check-out is complete.

MANUAL vi CHECK/COUNT TEST

The Autom atic vi (visual integrity) feature checks the detectors for correct response.

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Contents Ultraviolet Fire Detection System Page Page Page Table of Contents Unit V Maintenance Unit I General Information Detector Specifications Dimensions Basic Operation Controller Controller Faceplate Description Current Outputs OutputsRelay Outputs Programming Options External ResetAutomatic Diagnostics and Fault Identification Detector Unit II UV Fire DetectionSystem Application Petroleum Products HandlingOther Processes Detector Sensitivity Spectral Sensitivity RangeGaseous Fuel Handling System Sensitivity Cone of VisionController Wiring Unit III System InstallationInstallation General Wiring Requirements Page W iring for U1F-UV with Non-Isolated Current Output W iring for U1F-UV with Isolated Current Output W iring for U2F-UV with Non-Isolated Output W iring Diagram for U2F-UV with Isolated Current Output W iring for U4F-UV with Non-Isolated Current Output W iring for U4F-UV with Isolated Current Output Mounting the Detector DIP Switch SettingsPosition and Density of Detectors Channel Selection Controller Sensitivity AdjustmentU1F, U2F and U4F U2F and U4FExample Relay Outputs LATCHING/NON-LATCHINGRelay Outputs ENERGIZED/DE-ENERGIZED Page Relay Settings Time Delay for Area AlarmsUnit IV System Operation Startup ProcedureCheckout Procedure Manual Check Procedure Normal Operation Fire Response Alternate Test ProcedureCurrent Output Situation Main Menu Special Function Menu Error Check Mode Err ChcCurrent Calibration Mode CuC Routine Maintenance Unit V MaintenanceTroubleshooting Device Repair and ReturnPage Appendices B lis h ed in Accordance with E1A Standard Appendix B Procedure For Activating Reed Switches Appendix C Record Of Dip Switch Settings Appendix D Common Ultra-Violet Absorbing Gases AWG #20 AWG #18 AWG #16 AWG #14 AWG #12 AWG #10 AWG #8 Appendix E Wire Resistance In Ohms

0016-00, UVC120, MAN -0016-00 specifications

The Emerson MAN-0016-00, UVC120, 0016-00 is a state-of-the-art device designed to meet the demands of modern industrial and commercial applications. This advanced model showcases Emerson’s commitment to innovation, providing users with reliable performance and cutting-edge technology.

One of the key features of the Emerson MAN-0016-00 is its superior control capabilities. Equipped with sophisticated algorithms, this device ensures precise and adaptable control over various processes, improving efficiency and productivity in operations. Users benefit from enhanced responsiveness to changing conditions, allowing for quick adjustments that lead to optimized performance.

Another noteworthy technology integrated into the UVC120 is its advanced user interface. The device boasts a highly intuitive control panel that facilitates easy navigation and management of settings. This user-friendly design minimizes the learning curve for operators, ensuring that they can quickly familiarize themselves with its functions. The display provides clear, real-time feedback, enabling users to monitor system performance effortlessly.

The Emerson MAN-0016-00 is also characterized by its robust construction. Designed to endure harsh environmental conditions, this model is built with durable materials that enhance its longevity and reliability. It is resistant to various industrial contaminants, ensuring consistent operation even in challenging settings.

Energy efficiency is a hallmark of the UVC120 model. By employing innovative power management technologies, it significantly reduces energy consumption without compromising performance. This emphasis on sustainability not only lowers operational costs for users but also aligns with global efforts to minimize environmental impact.

Moreover, the Emerson MAN-0016-00 incorporates advanced safety features that prioritize user protection. These include integrated alarms and emergency shut-off mechanisms that respond to detected anomalies, enhancing overall workplace safety. The design also adheres to international safety standards, ensuring compliance and peace of mind for users.

In conclusion, the Emerson MAN-0016-00, UVC120, 0016-00 stands out as an exemplary model in the field of industrial technology. Its combination of precision control, user-friendly interface, robust construction, energy efficiency, and safety features make it an ideal choice for various applications. As industries continue to evolve, devices like this play a crucial role in enhancing performance, safety, and sustainability across the board.
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