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General| Category | Accessories |
|---|---|
| Operating Temperature | -10°C to +55°C |
| Type | Sounder |
| Humidity Range | 95% relative humidity, non-condensing |
| Dimensions | 100mm diameter x 50mm depth |
Details the S4 beam sensor, transmitter, receiver, and available bracket options.
Summarizes critical specifications including standards, dimensions, weight, and operating conditions.
Illustrates correct beam projection and alignment techniques for optimal performance.
Provides side and plan views for proper sensor mounting and orientation.
Highlights potential interference issues like heat sources and ventilation ducts to avoid.
Details how to connect and operate the test keyswitch for fire condition simulation.
Outlines the procedure for installing the angle bracket and fitting the beam sensor.
Explains the steps for initial assembly of the parallel bracket components.
Details the mounting process for the parallel bracket and securing the beam sensor.
Verifies system software compatibility and correct bracket setup before commissioning.
Confirms correct beam alignment and interprets operational LED indications.
Covers essential tests and final configuration steps for the beam sensor pair.
Details the sequence for aligning beam sensor pairs, including autogain steps.
Explains how red and green LEDs indicate alignment status and signal strength.
Describes activating Autogain and Align modes via the Vigilon control panel menus.
Describes activating Autogain and Align modes via the Nano control panel menus.
Fine-tuning sensor positions using bracket adjusters for optimal signal strength.
Executing autogain at the sensor device and subsequently at the control panel.
Details the specific adjustments required for the parallel bracket's X and Y axes.
Details the specific adjustments for the angle bracket's X and Y pivot points.
Lists maximum acceptable angle deviations for transmitter and receiver during installation.
Instructions for correctly attaching the light shield to the beam receiver.
Explains the meaning of different LED patterns for working, fire, and found device indications.
Steps to locate beam sensors on a Vigilon system using the Find Device function.
Steps to locate beam sensors on a Nano system using the Find Device function.
Describes different sensor states and their ideal operating distances.
Lists LPCB approved states (0-3) and their specific applications.
How to set the operational state for beam sensors using the Vigilon panel menus.
How to set the operational state for beam sensors using the Nano panel menus.
How to view time average readings for beam sensors on the Vigilon panel.
How to view time average readings for beam sensors on the Nano panel.
How to check the beam sensor gain value via the Vigilon panel's device status.
How to check the beam sensor gain value via the Nano panel's device status.
How to simulate a fire condition using a test card to obscure the beam path.
How to simulate a fault condition using a test card to obscure the beam path.
Steps for configuring beam sensor pair settings using the Vigilon commissioning tool.
Notes on the limitations of the Nano commissioning tool regarding sensor configuration.
How to check if an S4 beam sensor pair is compatible with older system types.
Steps to connect the programming base interface and software for conversion.
Guide to downloading, installing, and setting up the programming base interface software.
How to switch an S4 beam sensor pair between original and backward compatible modes.
Environmental disposal guidelines for product packaging, product, and batteries.
Standard notice regarding content revisions and liability.
