Emerson MAN -0016-00, UVC120 manual Programming Options, External Reset

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Figure 4 - Jumper Selection for Isolated or Non-Isolated Current Outputs

PROGRAMMING OPTIONS

DIP switches located on the circuit board are used to “program” various options including:

<channel selection,

<system sensitivity,

<fire area voting logic,

<time delay for fire area alarms,

<relay latching/non-latching selection, and

<relay energized/de-energized selection.

NOTE

Power to the controller must be cycled to make dip switch changes take effect.

EXTERNAL RESET

A normally open, momentary closure switch connected between the external reset terminal and the negative power terminal provides remote reset.

AUTOMATIC DIAGNOSTICS AND FAULT IDENTIFICATION

The microprocessor-based controller features self-testing circuitry that continuously checks for problems that could prevent proper system response. W hen power is applied, the microprocessor automatically tests memory. In the Normal Operating Mode it continuously monitors the system to ensure proper functioning. A "watchdog" timer is maintained to ensure that the program is running correctly.

The main loop of the operating program continuously cycles through the Automatic Visual Integrity test, checking each detector and its wiring. The microprocessor can be interrupted by

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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 Outputs Relay OutputsCurrent Outputs External Reset Automatic Diagnostics and Fault IdentificationProgramming Options Unit II UV Fire Detection DetectorSystem Application Petroleum Products HandlingDetector Sensitivity Spectral Sensitivity Range Gaseous Fuel HandlingOther Processes Cone of Vision System SensitivityUnit III System Installation Installation General Wiring RequirementsController Wiring 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 DIP Switch Settings Position and Density of DetectorsMounting the Detector Controller Sensitivity Adjustment Channel SelectionU1F, U2F and U4F U2F and U4FRelay Outputs LATCHING/NON-LATCHING Relay Outputs ENERGIZED/DE-ENERGIZEDExample Page Time Delay for Area Alarms Relay SettingsStartup Procedure Checkout ProcedureUnit IV System Operation Manual Check Procedure Alternate Test Procedure Normal Operation Fire ResponseCurrent Output Situation Main Menu Error Check Mode Err Chc Special Function MenuCurrent Calibration Mode CuC Unit V Maintenance Routine 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 Appendix E Wire Resistance In Ohms AWG #20 AWG #18 AWG #16 AWG #14 AWG #12 AWG #10 AWG #8

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.

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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.