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fiber sensys manualThis manual is provided by Fiber SenSys Inc. While reasonable efforts have been taken in the preparation of this material to ensure its accuracy, Fiber SenSys Inc.The Alarm Processing Unit (APU) can be tuned to disregard non-threatening stimulus such as wind and animals; thus, reducing nuisance alarms. When an intruder is. Please read and follow all these instructions carefully, and keep them accessible, for future reference. Whenever using the FD348R, use only attachments and accessories that have been specified by FSI, and refer all servicing to qualified personnel. Inspection The FD348R APU should be inspected for shipping damage. If any damage is found, notify Fiber SenSys and file a claim with the carrier. Save the shipping container for possible inspection by the carrier. Laser radiation The FD348R APU is a Class I laser product, as defined by IEC 60825-1 and CFR 21 subchapter J. These limits are designed to provide reasonable protection against harmful interference in a residential installation. The optical sensor is a thin strand of multimode optical fiber. The fiber optic cable is installed in such a way that, when intruders attempt to cross the perimeter, they create slight vibrations that disturb the sensing fiber. Fiber SenSys offers several single-mode cable configurations to satisfy a wide range of system implementations. Like the sensor cable, the insensitive leads are made of optical fiber that is immune to RF and EMI energy. Connectors To maintain a high signal-to-noise ratio, it is important that all connections within a given fiber optic sensor (zone) be made by either fusion splicing or by physical-contact fiber optic connectors (PC). The insensitive leads of the FD348R are connected to these connectors. Rack-Mount Chassis The RK348 rack-mount chassis, shown below, holds up to eight FD348R APU modules and provides power to each. SpectraView queries the APU, reads in the processor information and displays it:.http://learnsmart.com.ng/fckeditor/editor/filemanager/connectors/php/userfiles/essential-calculus-early-transcendentals-instructor-s-solution-manual.xml
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Also appearing in the table are the individual tuning parameters, and their current settings. The allowable range for each parameter as well as the default value is also shown. For detailed information about these tuning parameters, see the Fiber SenSys application note on tuning parameters titled: AN-SM-008 Setting the Tuning Parameters. For detailed information about SpectraView, refer to the SpectraView user’s manual available through Fiber Sensys Inc. The FD348R communicates via XML (extensible markup language) sending status messages to the network such as alarm, tamper, and fault conditions. Anytime the system is tuned, it should be re-tested and verified that it meets all requirements for probability of detection and rejection of nuisance alarms. Visually inspect the FD348R APU at least every 90 days: 1. Connect the PC to the APU via serial cable. Launch the terminal emulation software or SpectraView, and establish communication between the two instruments. The following properties must be set to communicate using terminal emulation software: Bits per Second: 9600 Data bits: 8. The default setting is 20 and the range is 1 to 50. The gain setting adjusts the sensitivity of the system to events, with higher settings meaning a higher sensitivity. For example, a gain setting of 30 is more likely to register an event than a gain setting of 10. NOTE: Hitting ENTER will cycle forward to the next parameter. Typing “-“ and hitting ENTER will cycle back to the previous parameter. This may be set to Frequency (Hz) eliminate lower order frequencies caused by nuisances such as vibrations from nearby structures The highest allowable frequency used by the processor to evaluate the presence of Highest 10 to 600. Typing “-“ and ENTER will cycle back to the previous parameter.This 0 to setting is useful for setting the system to mask or Event ignore the effects of oscillations from a single Mask Time (sec event, such as a bird striking a fence.http://imagroupco.com/resources/original/essential-calculus-early-transcendentals-james-stewart-solution-manual.xml If Fiber SenSys is unable to repair or replace a non-conforming product, it may offer a refund of the amount paid to Fiber SenSys for such product in full satisfaction of its warranty obligation. For information about our privacy practices, please visit our website. By clicking below to subscribe, you acknowledge that your information will be transferred to Mailchimp for processing. Learn more about Mailchimp's privacy practices here. FSI sensors have been successfully deployed on fences and alongside physical data networks at the most critical sites in the world. Our manufacturing and design headquarters are located just outside of Portland, Oregon, with sales and support offices around the world. Our manufacturing and design headquarters are located just outside of Portland, Oregon, with sales and support offices around the world. The standard outputs sent from the APU to VideoXpert, with this integration, include: APU Intrusion An intrusion has been detected on the channel. Channel Faults Loss or significant degradation of returning optical power was detected for the channel. Channel The APU is then the point of aggregation for the channels. The middleware integration software provides the ability to subscribe to and receive events from Fiber SenSys APUs, and inject them into a VideoXpert system. This integration was designed for 300 and 500 series APUs. A VideoXpert rule can then be created to display video from a camera that covers the corresponding channel when an intrusion alarm is received. You may use initial integrations for the first 90 days without a Pelco license. Please order Pelco part number INT-FIBERSENSYS for a one-year license. Read More About our Privacy Policy and Data Protection Measures. The FD508 Alarm Processor Unit (APU) is a 1U device that enables centralized control unit functionality and is equipped with modern communications capabilities.https://events.citeve.pt/chat-conversation/diy-bbq-island-manual The FD508 provides independent control of up to 8 zones and utilizes a single-strand for sensor deployment. All rights reserved. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from Fiber SenSys, Inc., 2925 NW Aloclek Drive, Suite 120, Hillsboro, Oregon 97124, USA. While reasonable efforts have been taken in the preparation of this material to ensure its accuracy, Fiber SenSys Inc.Fiber SenSys Inc. reserves the right to revise this publication and to make changes from time to time in the content hereof without obligation of Fiber SenSys Inc.Fiber Defender is a trademark of Fiber SenSys Inc. Fiber SenSys is a registered trademark of Fiber SenSys Inc. Windows is a registered trademark of Microsoft Corporation. Fiber SenSys Inc NW Aloclek Dr. Suite 120 Hillsboro, OR USA Tel: Fax: Page ii 3 Application Note Table of Contents Contents Fiber Defender.The software allows you to communicate with an APU from a PC via an intuitive graphical user interface (GUI). A properly configured and calibrated 500 series APU not only detects intrusion threats accurately, but also recognizes and ignores nuisances. Using the software suite, you can optimize your system to achieve a high probability of detection while effectively screening out nuisance alarms. Configuration and calibration is performed at installation; then again at any time a system component is repaired, replaced, or otherwise serviced. 500 Series Port Assignment Wizard assists with the installation of a new system. This software is easier to use and replaces the functionality of 500 Series Config. This software is described in AN-SM-023, the Port Assignment Wizard application note and is not covered by this manual. 500 Series Config allows you to specify configuration characteristics of the system s cable assembly necessary for proper APU function. 500 Series View allows you to calibrate your system, monitor system performance, and record and analyze sensor data. 500 Series Log is a utility used to view and track system activity. Product Description Use 500 Series Suite to perform functions such as: Configure the intrusion-detection system Create hyperzones Calibrate the system View real-time signals from the cable assembly Record and save signals from the sensor cables Review and analyze recorded sensor-cable signal files Predict optimal system calibration settings through signal modeling Series Config Page 2-1 6 Perform baseline system diagnostics System Requirements The software suite can be installed on any PC meeting these minimum requirements: Operating system Supporting software Processor Other Windows XP with Service Pack 3 (SP3), Windows Vista with SP2, Windows 7 with SP1, or Windows 8 Microsoft.NET framework 4.0 (included with software suite installer) 2.8GHz Intel Pentium 4 or 2.0 GHz Dual Core or faster Recommended configuration for the operating system Installing the software To install the software suite: 1. Turn on the PC. 2. Insert the installation CD into the PC s disk drive. 3. Follow the setup wizard prompts. If the setup wizard does not appear, it can be started manually by double-clicking on setup.exe from the CD. 4. By default, the setup wizard installs the software in the Program Files folder. You can specify a different location by clicking on the Browse button on the setup wizard dialog box. 5. By default, the installer will place an icon on the PC desktop. Page Series Config 7 Application Note Running the software To start the software suite, double click on the 500 Series Suite icon on the desktop. You can also start the suite by locating 500 Series Suite in the Fiber SenSys folder in the Start menu. The suite launcher will appear, allowing you to select the appropriate software Series Config Page 2-3 8 Series Config Use the 500 Series Config software to configure your Fiber SenSys security system. This step is essential for proper APU functioning. Configuration involves programming critical cable-assembly information into the 500 series APU. Before starting system configuration, you must know the length of the lead-in cable and the overall length of the backbone cable, in meters. NOTE: A new system must be configured using 500 Series Config before calibration parameters can be set using 500 Series View. Help for 500 Series Config When using 500 Series Config, this manual is available from the pulldown menu at the top of the screen. To open this manual, select the User Manual option from the Help menu. Figure Series Config main Help menu Page Series Config 9 Application Note NOTE: Tool tips appear when you move the cursor over a control on the screen. Configuring a new system NOTE: 500 Series Port Assignment Wizard assists with the installation of a new system. This software is easier to use and replaces the functionality of 500 Series Config, including Intelligent Zone Assignment. This software is described in AN- SM-023, the Port Assignment Wizard application note, and is not covered by this manual. To configure your system, follow these steps: 1. To launch the software, use the 500 Series Suite launcher or select the Start button and navigate to All Programs Fiber SenSys 500 Series Config. 2. The main 500 Series Config screen displays behind the APU Connection dialog box. The PC scans its communication ports and detects the APU, then establishes communication with the APU. The Series Config Page 2-5 10 APU Connection dialog box disappears. Figure Series Config searches for the APU Page Series Config 11 Application Note 3. The main 500 Series Config screen displays: Figure Series Config main screen 4. Two cable configuration values appear in the upper left portion of the screen, Lead Length and Backbone Length. These fields show the values previously stored in the APU, if any. Figure 2-5. Editing APU settings field 5. Enter the approximate length of the insensitive lead-in cable in meters in the Lead Length box. Ensure that the value entered is greater than the actual lead-in cable length. 6. In the Backbone Length box, enter the approximate end-to-end length of the backbone cable plus 100 meters, not including the Series Config Page 2-7 12 insensitive lead-in cable. Make sure the value entered is at least 100 meters longer than the actual length of the backbone cable. 7. Click on the Write button to save the lead length and backbone length values to the APU. CAUTION: Any time you enter new data on the 500 Series Config screen, the Write button starts flashing yellow, indicating there is new data to download to the APU. Be sure to click on the Write button to save the new data. If you exit this screen without clicking on the Write button, the data is discarded and not saved to the APU. 8. Click on the Configure button. The system begins a configuration scan of the connected cable assembly. The X axis represents distance in meters, and the Y axis represents optical power expressed as a percentage. CAUTION: The intrusion-detection system is temporarily disabled during the scanning process. Each peak in the waveform represents the optical signal reflected from a sensor cable. There is one reflection for each sensor cable in the cable assembly, plus the reference reflection from the splitter box. Page Series Config 13 Application Note Figure 2-6. Completed configuration scan 9. During a configuration scan, the 500 series APU calculates the location of the center of each reflection that appears on the waveform. This is the location of each sensor cable along the backbone, in meters. These locations are listed in the Zone Reflection Locations table on the 500 Series Config screen. The first column in the Zone Reflection Locations table identifies the reflection number. The second column identifies the location of the reflection, in meters. The third column identifies the zone number associated with that reflection. The first row in the table represents a reference reflection within the APU and the last row in the table represents the noise floor Series Config Page 2-9 14 Depending on the site configuration, the order of the reflections might not match your desired zone order. If this is the case at your site, consider using the Intelligent Zone Assignment feature, described in the Advanced Menu section. When the configuration scan is complete, make sure all the locations listed are correctly centered on the reflections. Click on each location listed in the Locations box. On the waveform, the white distance cursor moves to the reflection at that location. Verify that the distance cursor looks centered on the reflection at the selected location. NOTE: You can zoom in on any portion of the scan, using the cursor to outline the area to view. Click Zoom Out to increase the area in view, and Normal to return to the original view. Figure 2-7. Zooming in on the waveform If the location of a reflection is not exactly centered, use the Remove and Insert buttons to relocate the center. With the location selected in the Page Series Config 15 Application Note list, click Remove. Then drag the distance cursor to the center of the reflection, and click Insert to establish the new center point. 11. After checking that each location listed corresponds to the center of each reflection on the waveform, save the data by clicking on the Write button to complete system configuration. 12. To save the configuration data to a file on the PC, select the File pulldown menu from the menu bar at the top of the screen, and select the Save APU settings option. A Save Config File As dialog box appears, requesting a file name and location for the file. The file extension.cfg is provided automatically. Specify a filename and location for the configuration file. The 500 Series Config software saves the file with the extension.cfg. Figure 2-8. Save APU settings Series Config Page 2-11 16 13. To save the waveform data to a file on the PC, select the Graph pulldown menu from the menu bar, and select Save to File. A Save Graph Data File As dialog box appears, requesting a file name and location for the file. The file extension.dat is provided automatically. Specify a filename and location for the waveform data. 500 Series Config saves the file with the extension.dat. Figure 2-9. Save waveform data to a file 14. Exit the 500 Series Config program. You can either select Exit from the File menu, or click on the Windows close button (X) in the upper right-hand corner of the 500 Series Config window. 15. Configure the intrusion-detection system using 500 Series View according to the instructions given in the next chapter of this manual. Restoring the system configuration System configuration can be restored from a saved configuration (.cfg) file. Restore system configuration after the APU has been replaced due to servicing. NOTE: Do not restore the system configuration if sensor cables or the backbone cable has been serviced. In that case, the system must be reconfigured using the same procedure for configuring a new system. To restore system configuration, follow these steps: Page Series Config 17 Application Note 1. Select the drop-down File menu from the 500 Series Config menu bar, and click on the Load APU settings option. An Open Config File dialog box appears that allows you to browse the PC s hard drive. Select the.cfg file that contains the required configuration data. 2. When you open the.cfg file, the 500 Series Config screen is populated with the data from the file. Verify that the configuration data is correct. 3. Click on the Write button to write the data to the APU. 4. Reconfigure the system according to the instructions given in the following chapter on the 500 Series View program. Set configuration parameters on the APU Parameters screen in 500 Series View. 5. After setting configuration parameters, conduct the system performance tests given in the APU s manual. 500 Series Config Diagnostics You can compare system performance at different times, or compare current system performance against that of an earlier configuration. This is done by acquiring spectral data, saving the resulting waveform into a file on the PC, then comparing the saved data to a current waveform. To compare data, use the Capture function, as follows: 1. First, load a saved waveform. Select the drop-down Graph menu from the 500 Series Config menu bar, and click on the Load from File option Series Config Page 2-13 18 Figure Graph menu Load from File option A Load Graph Data File dialog box appears that allows you to browse the PC s hard drive. 2. Select the.dat file that contains the corresponding waveform data. The waveform is drawn in the graph area of the display. Figure Loading a waveform from a.dat file Page Series Config 19 Application Note 2. With the comparison waveform loaded, select the drop-down Graph menu again, and click on the Capture option. The current waveform on the 500 Series Config screen changes from red to blue, indicating the waveform has been captured and will be retained on the screen when a new waveform is either acquired or loaded from another file. Figure The Capture function on the Graph menu Series Config Page 2-15 20 3. With the captured waveform on the screen, click on the Scan button to acquire new spectral data for the cable assembly. When the new data is acquired, both the captured waveform and the live waveform are shown on the 500 Series Config screen together. You can then use the zoom function to compare the two traces. Figure Comparing captured and live waveform traces NOTE: This procedure starts with loading a.dat file and compares the waveform from the file to a new scan, but you can also start with a current scan, capture it, and load a second waveform from a file for comparison. Page Series Config 21 Application Note Setting the APU Time The 500 Series APU contains an internal real-time clock. This clock is set at manufacturing time but can also be set by the customer by accessing the APU Set APU Time menu item, which will bring up the following form. Figure Setting the APU Time This form reports the current APU date and time as well as the current date and time on your PC. Pressing OK will close the form after setting the APU's date and time. Pressing Cancel will close the form without changing the APU Series Config Page 2-17 22 Advanced Settings 500 Series Config includes some advanced capabilities that are not designed for regular use. These capabilities can be accessed via the APU Advanced menu item, which will bring up a form containing advanced settings. CAUTION: Some of the settings accessible from the Advanced Settings form are critical. Changing these values could result in a non-functioning system. Fiber SenSys does not recommend changing the values on this form unless you have been trained in their use. Figure Confirmation dialog for Advanced Settings form The Laser Current field reports the automatically adjusted current value at the time that the form was created. It is used for customer support diagnostics. The Default laser current value indicates the percentage of current capacity that the APU should use as its starting current. The Fault Threshold indicates the percentage of average signal value below which the zone should be considered in fault. The Write button must be pressed to send the updated field values to the APU. Page Series Config 23 Application Note Figure Advanced Settings form The Allow Intelligent Zone Assignment checkbox allows the Intelligent Zone Assignment feature to be accessed from the Zone Reflection Locations table. This feature allows flexibility in assigning zone numbers to zones. The checkbox does not change any assignments that already exist in the APU and the Write button does not need to be pressed. The checkbox must be checked each time you re-start 500 Series Config. Please refer to the section on Intelligent Zone Assignment for more information about this feature Series Config Page 2-19 24 Intelligent Zone Assignment The Intelligent Zone Assignment feature allows flexibility in assigning zone numbers to zones. The assigned zone numbers are used for the LEDs, relays, FD525 View, and XML (Fiber Commander). 500 Series Config prevents the user from duplicating or skipping numbers, so only the sequence of the numbers is changed. The primary advantage of this feature is that customers do not need to insert fiber delay coils to achieve their desired zone numbering sequence. For example, if you have a long zone followed by a short zone, you can now call these zones 1 and 2 through software. A dropdown will appear, allowing the user to assign a new zone number for that reflection. Figure Using the Intelligent Zone Assignment feature Click elsewhere to commit the assignment. Once the assignment is committed, the Write button will flash to remind the user that the Zone Reflection Locations table no longer matches the table in the APU. The Reset Zone Order button will restore the zone numbers such that each matches the reflection number. If you inadvertently press this Page Series Config 25 Application Note button, you can use the Read button to read the current settings from the APU, including the Zone Reflection Locations table Series Config Page 2-21 26 500 Series Config prevents the user from duplicating or skipping numbers, so before the table can be written to the APU, the user must first assign a unique number to each zone. 500 Series Config highlights duplicate zone numbers to remind the user to assign unique numbers. Figure Highlighted duplicate zone numbers. If the user attempts to write the table before assigning unique numbers, an error dialog appears indicating that the settings cannot be written. Figure The duplicate zone numbers error dialog. Once each zone has been assigned a unique number and the Write button is pressed, the Zone Reflection Locations table will be written to the APU. The assigned zone numbers will then be used for the LEDs, relays, 500 Series View, and XML (Fiber Commander). Page Series Config 27 FD525 Software Reference Manual Series View Use 500 Series View to set calibration parameters for your security system. Effective calibration of the system minimizes nuisance alarms and optimizes its probability of detection. Configure the system when it is first installed, and also after any servicing of the cable assembly or APU. Using 500 Series View, you can also record sensor data files, analyze the frequency content of saved data, perform sensor data modeling, and perform routine cable-assembly diagnostics. Start 500 Series View 1. Connect the PC running 500 Series View to the USB port of the 500 series APU. Turn power on to the APU. 2. To launch the software, use the 500 Series Suite launcher or select the Start button and navigate to All Programs Fiber SenSys 500 Series View Series View starts up, with the APU Parameters tab selected. The screen displays calibration information read from the APU Series View Page 3-1 28 Help for 500 Series View Online help for 500 Series View is available from the pull-down menu at the top of the screen. To view the main help screen, select the Help option from the Help menu. Figure Series View main Help menu To view help in context, right click on any field on the screen to display a pop-up Help option, and left click on the pop-up. This will be the name used to address the device in all XML messages if your APU is installed in an existing local-area network. Click on the Device Name field on the APU Parameters screen and enter the name. Click on the Write button to write the name to the APU Series View Page 3-3 30 Hyperzones Next, organize your secure perimeter into hyperzones. A hyperzone is a virtual zone in your perimeter security system that consists of one or more actual physical zones. For example, each physical zone can be a separate hyperzone; or alternatively, all the zones of your perimeter can be in one hyperzone. Group physical zones into hyperzones according to how you plan to assign calibration parameters. This feature enables you to apply the same calibration settings to separate zones that have similar physical traits. Hyperzones might indicate places where the environment changes, for example, from open space to a treed area, or areas that might be affected by vibrations from traffic or railway. After a 500 Series Config APU configuration, all zones are grouped into one hyperzone, containing all the physical zones in the system. To create a new hyperzone and add a zone to it, activate the APU Parameters tab and right click on the zone to be moved. Select the popup Add to new Hyperzone when it appears. A new hyperzone is created containing the selected zone. Figure 3-4. Creating a new hyperzone You can right-click over any listed zone to continue creating new hyperzones. After creating new hyperzones, you can also move individual zones by dragging them in the hyperzone tree from one hyperzone to another. Page Series View 31 Rename zones To rename a zone, click on the zone to select it, wait a second and then click on it a second time. A text cursor appears in the name field, and you can type in a new name. After hyperzones are defined and named, calibrate the system by assigning calibration parameters to each hyperzone. All calibration parameters are assigned on the APU Parameters screen. As discussed earlier, each hyperzone is calibrated independently. When a new hyperzone is created, 500 Series View assigns default settings to each calibration parameter. You can change these settings for each hyperzone. If you remove a zone from one hyperzone and add it to another, the zone is automatically assigned the calibration parameters of the new hyperzone. To adjust the calibration parameters for a hyperzone, select the hyperzone either by double clicking on it, or by right clicking on it and choosing Select from the pop-up menu. The selected hyperzone is highlighted. With the hyperzone selected, change the value of any calibration parameter, either using the arrow keys, or by typing a new value into the associated box and pressing Enter. If you enter a number outside the allowed range, 500 Series View automatically changes it to the closest allowed value. After setting calibration parameters, make sure to click on the Write button to write the parameters to the APU Series View Page 3-5 32 CAUTION: Do not select another hyperzone for calibration before clicking on the Write button. If you change hyperzones before saving the calibration parameters, all new parameter values are discarded. General APU parameters Some general APU settings are found in the lower right-hand corner of the 500 Series View APU Parameters screen.