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Xtrails VESDA-E VES-A10-P-UL Product Manual

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VESDA-E VES-A10-P-UL Product Guide
VES-A10-P-UL (4 Pipes)
September 2023
Doc. No. 35947_A4
Part No. AD35947-005

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Summary of Contents for Xtrails VESDA-E VES-A10-P-UL

  • Page 1 VESDA-E VES-A10-P-UL Product Guide VES-A10-P-UL (4 Pipes) September 2023 Doc. No. 35947_A4 Part No. AD35947-005...
  • Page 3 VESDA-E VES-A10-P-UL Product Guide Intellectual Property and Copyright This document includes registered and unregistered trademarks. All trademarks displayed are the trademarks of their respective owners. Your use of this document does not constitute or create a licence or any other right to use the name and/or trademark and/or label.
  • Page 4 VESDA-E VES-A10-P-UL Product Guide Scope The VESDA-E VES-A10-P-UL Product Guide provides a comprehensive description of the VES-A10-P-UL detector and its accessories. This guide introduces the VES-A10-P-UL features, technical specifications and gives an understanding of its components and their function. You will also find instructions on installing, cabling and powering up the detector.
  • Page 5 VESDA-E VES-A10-P-UL Product Guide Codes and Standards Information for Air Sampling Smoke Detection We strongly recommend that this document is read in conjunction with the appropriate local codes and standards for smoke detection and electrical connections. This document contains generic product information and some sections may not comply with all local codes and standards.
  • Page 6 VESDA-E VES-A10-P-UL Product Guide Configuring Detector Thresholds for UL 268 Ed7 standard Compliance OPEN AREA Introduction of ANSI standard UL268 7th edition, which now includes a nuisance alarm requirement for which the detector is not permitted to signal an alarm during UL defined nuisance fire conditions. XtralisVESDA-E detectors support four configurable alarm thresholds: Fire1 Alarm threshold, used to signal the alarm condition, each sampling port must be configured to be: Above the nuisance smoke level...
  • Page 7 VESDA-E VES-A10-P-UL Product Guide SPECIAL APPLICATION Xtralis VESDA-E detectors may be optionally configured for use in special application environments with higher Fire Alarm sensitivity that is, by default not allowed by the ANSI UL 268 Ed7 standard. Special application mode is suitable for areas where early warning is paramount, in this mode, the detector may not be compliant with the Nuisance requirement of UL 268 Ed7 standard.
  • Page 8 VESDA-E VES-A10-P-UL Product Guide Regional Regulatory Requirements and Notices UL Installations For Open Area, Special Application, High Velocity and DUCT installations, ASPIRE software is required to design sampling pipe networks that conform to the performance claims verified by UL refer to Table 1: Sensitivity Range - Open Area Protection below.
  • Page 9 VESDA-E VES-A10-P-UL Product Guide Product Listings CSFM Regional approvals listings and regulatory compliance vary between product models. Refer to www.xtralis.com for the latest product approvals matrix. Document: 35947_A4 Part Number: AD35947-005 www.xtralis.com...
  • Page 10 VESDA-E VES-A10-P-UL Product Guide Electrostatic discharge (ESD) precaution Several maintenance functions require that the fascia be removed from the VES-A10-P-UL detector in order to perform them. Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur.
  • Page 11 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Figure 2: Fascia removal - remove screws 3. Remove the fascia and allow it to hang by the two tether straps. www.xtralis.com...
  • Page 12 VESDA-E VES-A10-P-UL Product Guide Figure 3: Fascia hanging on two tethers www.xtralis.com...
  • Page 13 VESDA-E VES-A10-P-UL Product Guide Product Security Advice Warning: Failure to comply with the requirements below exposes the system to malicious interference which could disable smoke reporting. Avertissement : Le non-respect des exigences ci-dessous expose le système à des interférences malveillantes qui pourraient désactiver le signalement de fumée. Scan the QR code to access the latest security advice available from: https://xtralis.com/33252 Commissioning Requirements All VESDAnet wiring and connection ports must be secured against unauthorized access.

  • Page 14: Table Of Contents

    VESDA-E VES-A10-P-UL Product Guide Table of Contents Introduction Features Product Information Detector Components How the VES-A10-P-UL works Front Panel Internal Buttons Communication Ports VESDAnet Specifications Dimensions Pipe Network Design and Installation Design Considerations Installation Considerations Pipe Inlets Managing the Exhaust Air Installation Prepare the Detector Mounting...
  • Page 15 VESDA-E VES-A10-P-UL Product Guide ASPIRE Data Smoke Test Air Sampling Test Results Glossary Index www.xtralis.com...

  • Page 16: Introduction

    VESDA-E VES-A10-P-UL Product Guide Introduction The VESDA-E VES-A10-P-UL is a scanning aspirating smoke detector (ASD) that provides very early warning of fire conditions by drawing air samples through an air sampling pipe network. The VESDA-E VES-A10-P-UL can monitor and individually report on four sectors in the protected area.

  • Page 17: Product Information

    VESDA-E VES-A10-P-UL Product Guide Product Information Detector Components The VES-A10-P-UL detector contains field-replaceable Filter, Aspirator and Chamber Assembly components. These are shown below in Figure 2-1. Legend A Fascia with 3.5" touchscreen display B Filter C Chamber Assembly D Aspirator Sampling Module Base G Ultrasonics Flow Sensing and Scanning...

  • Page 18: Front Panel

    Controls: Reset and Disable button. Touch-screen featuring a limited set of additional controls and lookup tools. 2.3.1 Status LEDS The VESDA-E VES-A10-P-UL detector features a range of LED Indicators which illuminate when their respective activation conditions are met. Table 2-1: LED Indicators Symbol...
  • Page 19 VESDA-E VES-A10-P-UL Product Guide 2.3.2 RESET / DISABLE / ACKNOWLEDGE Button Figure 2-2: Reset / Disable / Acknowledge Button If there is an alarm or fault condition pressing the button the first time will acknowledge the condition. Subsequent presses will reset or disable the detector. Resetting the detector unlatches all latched alarms and faults, returns relays to their normal state and clears the active event list in Xtralis VSC.
  • Page 20 VESDA-E VES-A10-P-UL Product Guide VES-A10-P[42] VES-A10-P[42] Basement Basement 0.0215%/m 0.1100%/m Figure 2-3: Main Screen - Normal System Figure 2-4: Main Screen - System with Faults Note: Refer to Section 8.2 on page 97 for further information on troubleshooting using the fault display information on the main screen. Sector Status Screen Figure 2-5: Sector Status Screen The sector status screen shows:...

  • Page 21: Internal Buttons

    VESDA-E VES-A10-P-UL Product Guide Figure 2-6: Airflow Screen Figure 2-7: Airflow Screen with a disabled Sampling Pipe Note: The sector status screen will be shown automatically when the smoke level exceeds the Adaptive Scan Threshold and scanning starts. Status Screen The Status screen displays a usage indicator for the filter and status information for the Normalization, AutoLearn Smoke and AutoLearn Flow functions.

  • Page 22: Communication Ports

    VESDA-E VES-A10-P-UL Product Guide Communication Ports The majority of user operations are performed using software installed on a computer connected to the detector via one of the physical communication ports. The correct connection method to use depends on the purpose for connecting to the detector (Figure 2-9). Connection Usage? Initial...

  • Page 23: Specifications

    VESDA-E VES-A10-P-UL Product Guide Specifications Table 2-2: VES-A10-P-UL Detector Specifications Specification Value Supply Voltage Range 18 - 30VDC (Nominal 24VDC ) Maximum Power Consumption Quiescent Alarm Maximum current measured is from the supply 0.89A 0.92A voltage that generates the highest current. Nominal Power Consumption @24VDC Aspirator Settings 0.33 0.43...
  • Page 24 Maintenance and Major Fault Maintenance Aids Filter and flow monitoring Event reporting via VESDAnet and event log Table 2-4: Ordering Information VESDA-E VES-A10-P-UL Detector VES-A10-P-UL Exhaust Adaptor US VSP-961 Note: Refer to Table 7-2 on page 96 for the spare parts list.

  • Page 25: Dimensions

    VESDA-E VES-A10-P-UL Product Guide Dimensions inch 28.5 1.12 35.0 1.38 45.0 1.77 134.0 5.28 34.0 1.34 34.0 1.34 34.0 1.34 34.0 1.34 26.5 1.04 J 350.05 13.78 224.0 8.82 230.2 9.06 M 135.48 N 132.28 5.21 28.5 1.12 35.0 1.38 45.0 1.77 127.0 143.0...
  • Page 26 VESDA-E VES-A10-P-UL Product Guide inch 17.5 0.69 315.0 12.4 17.5 0.69 D 144.99 5.71 77.2 3.04 Figure 2-11: Rear dimensions with Mounting Bracket www.xtralis.com...
  • Page 27 VESDA-E VES-A10-P-UL Product Guide inch 224.0 8.82 112.0 4.41 40.9 1.61 D 268.39 10.57 40.71 20.25 183.5 7.22 20.25 Figure 2-12: Rear Dimensions with hole locations for direct mounting www.xtralis.com...

  • Page 28: Pipe Network Design And Installation

    VESDA-E VES-A10-P-UL Product Guide Pipe Network Design and Installation The Pipe Network should be designed by trained personnel, and verified using the ASPIRE software. Design Considerations The following points should be considered when designing a pipe network for the VES-A10-P-UL detector: Single Pipe Multi Pipe System Minimum...

  • Page 29: Managing The Exhaust Air

    VESDA-E VES-A10-P-UL Product Guide Note: DO NOT glue the inlet pipes to the pipe inlet manifold. When configuring the detector ensure that the correct pipes in use are selected as indicated in Table 3-1. Table 3-1: Preferred use of pipe inlet ports No. of Pipes Preferred Pipe Inlet Port to use Pipe 1 Pipe 2...

  • Page 30: Installation

    VESDA-E VES-A10-P-UL Product Guide Installation The VES-A10-P-UL detector is shipped with the following components: 1 VESDA-E VES-A10-P-UL detector Installation Sheet Mounting bracket Mounting template for directly mounting the detector to the mounting surface Exhaust Adaptor (US only) 1 End of Line resistor for the monitored GPI Check all components for damage and refer any concerns to your authorized representative.

  • Page 31: Mounting

    VESDA-E VES-A10-P-UL Product Guide Mounting The VES-A10-P-UL detector can be mounted in an upright or inverted position. Do not mount the detector with a sideways orientation as shown in Figure 4-3 below. Figure 4-3: Sideways orientation Ensure the mounting surface is flat as this allows an air tight seal to be achieved between the sampling pipe and the tapered air inlet pipes on the detector.
  • Page 32 VESDA-E VES-A10-P-UL Product Guide 4.2.1 Inverting the Detector Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. If the pipe network design requires that the sampling pipes enter the detector at the bottom, it is possible to achieve this by inverting the detector.
  • Page 33 VESDA-E VES-A10-P-UL Product Guide 3. Take the top and bottom covers off. To do this, press the tabs marked A and B in Figure 4-6. Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur.
  • Page 34 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Figure 4-8: Detector with tethers detached 5. Detach the front door from the fascia by removing pin A from the hinge (Figure 4-9, Figure 4-10). Leave pin B in place –...
  • Page 35 VESDA-E VES-A10-P-UL Product Guide Figure 4-9: Removing door hinge pin A Figure 4-10: Detaching door www.xtralis.com...
  • Page 36 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 6. Change from setup A in Figure 4-11 to setup B by doing the following: a.
  • Page 37 VESDA-E VES-A10-P-UL Product Guide Figure 4-12: Replacing the door hinge pin - showing correct positioning of door and pin www.xtralis.com...
  • Page 38 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Figure 4-13: Replacing the door hinge pin Figure 4-14: Correct positioning of door hinge pin when fully in place 8.
  • Page 39 VESDA-E VES-A10-P-UL Product Guide Figure 4-15: Re-attach tethers at circled positions Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Figure 4-16: Position the tethers and pull up to attach 9.
  • Page 40 VESDA-E VES-A10-P-UL Product Guide 4.2.2 Mounting the Detector with the Mounting Bracket 1. Position the mounting bracket (A) to allow sampling pipes (B) and electrical conduit (C) to line up horizontally with the alignment marks (D) and vertically with the appropriate pipe depth line (Figure 4-17). 3/4 inch IPS pipe (1.05 inch OD) should vertically align with the top depth line (E).
  • Page 41 VESDA-E VES-A10-P-UL Product Guide 5. Insert the remaining three mounting screws (B) and tighten them (Figure 4-20). Legend A Mounting bracket B Mounting screws Figure 4-20: Mounting Bracket 6. Align the mounting studs (A) on the rear of the detector with the mounting stud slots on the mounting bracket, and slide the detector down until the top of the detector is flush with the top of the mounting bracket (Figure 4-21).
  • Page 42 VESDA-E VES-A10-P-UL Product Guide 4.2.3 Mounting the Detector using the Mounting Template 1. Position the mounting template to allow sampling pipes (A) to horizontally line up with the alignment marks (B) and vertically align with the appropriate pipe depth line (Figure 4-23): 3/4 inch IPS pipe (1.05 inch OD) should vertically align with the top depth line (C).
  • Page 43 VESDA-E VES-A10-P-UL Product Guide Inverted Detector 3/4 ” IPS 25 mm tec to r of De Ed ge 25 mm 3/4 ” IPS Upright Detector Figure 4-25: Position conduit and pipes 8. Remove the mounting template. 9. In order to allow the detector to be positioned, retract the inlet and exhaust pipes and electrical conduit. 10.
  • Page 44 VESDA-E VES-A10-P-UL Product Guide Upright Inverted Detector Detector Figure 4-28: Slide detector to the left Rotate the detector clockwise to position the large end of the detector’s top-left, or top-right for an inverted detector, keyhole over the head of screw B. Push the detector to the wall (Figure 4-29). Upright Inverted Detector...
  • Page 45 VESDA-E VES-A10-P-UL Product Guide Upright Detector Inverted Detector Figure 4-31: Locking screw 13. Tighten the top and bottom screws. 14. Insert the pipes and electrical conduit. www.xtralis.com...

  • Page 46: Wiring

    A10-P-UL. 4.3.1 Cabling Inlets The VESDA-E VES-A10-P-UL contains four inlets for power, relay and network cabling, located on the upper and lower sides of the detector base. The holes have a diameter of 26 mm (1.02 inch). Note: To maintain the specified IP rating, cable glands or conduit must be used.
  • Page 47 VESDA-E VES-A10-P-UL Product Guide 4.3.2 Socket Locations Legend Power A Power Out B Power In VESDAnet C VESDAnet B D VESDAnet A Relays E 3 – Urgent Fault 1 – Disable G 2 – Minor Fault H 4 – Alert 5 – Action 7 –...
  • Page 48 VESDA-E VES-A10-P-UL Product Guide 4.3.3 Power Source There are two sets of power terminals on the main board (Figure 4-33). Connect a 24 VDC power supply which is compliant with local fire protection codes and standards to the PWR IN socket, and if required loop out to another detector via the PWR OUT socket.
  • Page 49 Figure 4-35: Example closed loop VESDAnet network The VESDA-E VES-A10-P-UL detector is shipped with the VESDAnet A and B terminals looped. Remove the A and B links prior to connecting the detector to the VESDAnet. If the detector is not to be networked with other devices, then do not remove the A and B links.
  • Page 50 VESDA-E VES-A10-P-UL Product Guide 4.3.6 Relays The relays, located on the main processor card, interface to the Fire Alarm Control Panel (FACP) to communicate faults, alarms and disabled states. The relays can be programmed using Xtralis VSC. Relays 3 and 6 are permanently set for Urgent Fault and Fire 1 respectively. Table 4-22 below illustrates the default assignments of functions (conditions) to relays and summarizes the default behavior of each relay.
  • Page 51 VESDA-E VES-A10-P-UL Product Guide Table 4-2: Default Relay Assignments (continued...) Relay # Default Default to Description for default configuration Configurability Assignment Normally Energized Action Energizes when the Action alarm is Fully initiated. configurable Fire 1 Energizes when the Fire 1 alarm is initiated. Fire 1 cannot be removed.
  • Page 52 VESDA-E VES-A10-P-UL Product Guide 4.3.9 Typical Wiring to Fire Alarm Control Panel (FACP) The diagram below shows the correct way to wire VESDA-E detectors to a conventional fire alarm control panel (FACP). To next detector or End of Line resistor (EOL) Dete tor Fire Panel (FACP) Normally Closed (NC)
  • Page 53 VESDA-E VES-A10-P-UL Product Guide 4.3.11 Typical Wiring for Monitored GPI for PSU Monitoring The diagram below shows the correct way to configure power supply monitoring. It also shows where an End Of Line (EOL) resistor is correctly installed. Refer to Section 4.3.8 on page 38 for further information. Legend A External device (1 to N) B End of Line Resistor at device end of...

  • Page 54: Powering Up

    VESDA-E VES-A10-P-UL Product Guide Powering Up After installing the detector it is necessary to power up the system. The power up sequence lasts approximately 15 seconds. The VES-A10-P-UL detector does not have a power switch i.e it is an "always on" device which is activated by applying powered cabling to the power input terminal on the main board (Figure 4-33).

  • Page 55: Installation Checklist

    VESDA-E VES-A10-P-UL Product Guide Installation Checklist Site Name Address Detector Serial Number(s) and Date of Manufacture Name of Installer Signature Date Perform the following checks listed below to ensure that all the necessary items are completed before handing over to a commissioning engineer. Installation Checks Done (Y/N) The detector is securely locked onto the mounting bracket (if in use).

  • Page 56: Preliminary System Check

    VESDA-E VES-A10-P-UL Product Guide Preliminary System Check A preliminary system check is required after installing the VES-A10-P-UL detector, before it is commissioned for use. To perform the preliminary system check: Power up the detector by connecting the power supply to the Power In terminal. Check that the display is functioning.

  • Page 57: Configuration

    VESDA-E VES-A10-P-UL Product Guide Configuration This chapter describes a number of configuration options, user functions and security features of the VES- A10-P-UL detector that the installer and users must be familiar with. These include: defining connections and connecting to the detector security detector commands configuration options...
  • Page 58 VESDA-E VES-A10-P-UL Product Guide Figure 5-1: Connection Manager 2. Select Add. The Add Connection dialog is displayed (Figure 5-2). Figure 5-2: Add Connection 3. Select the VESDAnet connection option, then select Next. Adding a USB Connection 1. Select USB, then select Next (Figure 5-3). Figure 5-3: Select USB www.xtralis.com...
  • Page 59 VESDA-E VES-A10-P-UL Product Guide 2. Enter a unique name for the Connection or accept the pre-generated name, then select Finish (Figure 5-4). Figure 5-4: Enter a Connection Name Adding an Ethernet connection 1. Select Ethernet, then select Next (Figure 5-5). Figure 5-5: Select Ethernet 2. Enter the IP address which is used to access the detector. Optionally tick the checkbox next to "Remember Password"...
  • Page 60 VESDA-E VES-A10-P-UL Product Guide Figure 5-6: Enter IP Address 3. Enter a unique name for the Connection or accept the pre-generated name, then select Finish (Figure 5-7). Figure 5-7: Enter a Connection Name www.xtralis.com...

  • Page 61: Connecting To The Detector

    VESDA-E VES-A10-P-UL Product Guide Connecting to the Detector Once a Connection Profile has been defined, it is possible to connect to the VES-A10-P-UL detector using the following methods: 5.2.1 Connecting to a detector via USB Direct connection between the detector and the PC installed with Xtralis VSC can be made using a Type A to Type B USB interface lead.
  • Page 62 VESDA-E VES-A10-P-UL Product Guide detector status screen. For static IP addresses, set Automatically obtain IP Address to off and set the IP Address, Subnet Mask and Default Gateway to a valid address in the building network. Set the detector authentication password. Refer to Section 5.3.1 on page 50 for further information. Connect to a detector using Xtralis VSC 1.

  • Page 63: Authentication

    VESDA-E VES-A10-P-UL Product Guide Authentication The VES-A10-P-UL has two levels of protection against unauthorized access. For connection via Ethernet, a password of at least 8 characters must be used. After connection, a four digit PIN is used to control the access level. 5.3.1 Ethernet Authentication A password is used to authenticate access over Ethernet connection when using Xtralis VSC.

  • Page 64: Commands

    VESDA-E VES-A10-P-UL Product Guide Commands The following commands are able to be issued to the detector using buttons or the Xtralis VSC software, as indicated below in Table 5-2, a small number of basic commands can be executed from the detector via buttons, while the full range of commands can be executed using the Xtralis VSC software.
  • Page 65 VESDA-E VES-A10-P-UL Product Guide Table 5-2: Detector Commands (continued...) Command Description Execute From A button Xtralis VSC on the Software Detector Start AutoLearn Flow Starts the AutoLearn Flow process for the detector. The detector monitors the environment and determines appropriate airflow fault thresholds. The user is prompted to enter the monitoring period.
  • Page 66 VESDA-E VES-A10-P-UL Product Guide Table 5-2: Detector Commands (continued...) Command Description Execute From A button Xtralis VSC on the Software Detector Rebuild Zone List Re-learns the list of display modules that are assigned to the detector on the VESDAnet. Start Major Fault Test Generates a major fault on the detector and de- energizes the fault relay for 2 minutes.

  • Page 67: Configuration Options

    VESDA-E VES-A10-P-UL Product Guide Configuration Options The VESDA-E VES-A10-P-UL detector can be configured using the Xtralis VSC software. The following sections describe the configuration options available in Xtralis VSC. 5.5.1 General Options The General options include some basic identification information for the detector.
  • Page 68 VESDA-E VES-A10-P-UL Product Guide 5.5.2 VESDAnet Options The VESDAnet options provide the ability to control network data transmission behaviour for VESDAnet connections. Note: Refer to Section 5.6 for the default settings. Figure 5-12: VESDAnet Communications Options The Communications configuration options are as follows: Preferred Port: The preferred VESDAnet port to be used to transmit network data from this device.
  • Page 69 VESDA-E VES-A10-P-UL Product Guide 5.5.3 Ethernet Options The Ethernet options provide the ability to configure the detector to join an existing wired Ethernet network using the normal building network connection process or be directly connected to a PC or laptop. Figure 5-13: Ethernet Options The Ethernet configuration options are as follows: Ethernet Enabled: Tick to enable Ethernet for use.
  • Page 70 VESDA-E VES-A10-P-UL Product Guide 5.5.4 Security Options The Security options page allows you to define the number of Ethernet connections and the USB and Ethernet connection idle timeouts. Figure 5-14: Security Options Maximum number of Ethernet connections: The number of connections which can be running at any time.
  • Page 71 VESDA-E VES-A10-P-UL Product Guide 5.5.5 Smoke Threshold Options The Smoke Threshold options provide the mechanism to set the smoke obscuration trigger point for each alarm level, and the ability to assign day or night thresholds to cater for different levels of activity in the protected area during these times.
  • Page 72 VESDA-E VES-A10-P-UL Product Guide Holidays: The settings used to define a holiday period. Use the dropdown calendars to choose the start and end times of the holiday (or break) period. Night time thresholds are used during the holiday period. UL7 Mode: Sets the required UL7 operating mode: Open Area.
  • Page 73 VESDA-E VES-A10-P-UL Product Guide 5.5.7 Filter Option The Filter option page allows you to define the time period after which a filter fault will be generated. Figure 5-17: Filter Options Service Interval (days): The time period after a new filter is installed at which non urgent fault "Filter smoke- dust limit nearly exceeded "...
  • Page 74 VESDA-E VES-A10-P-UL Product Guide 5.5.8 Sector Names The Sector Names page allows the user to set the names of the sectors being monitored. Figure 5-18: Sector Names Sector Name – Sector Number 1 through 4: A description of the sector being monitored. This name will appear on Xtralis VSC and on the LCD display of the A10 model detector.
  • Page 75 VESDA-E VES-A10-P-UL Product Guide 5.5.9 Referencing Options Periodically, smoke and other pollutants from external sources may enter a protected zone temporarily raising the smoke level. In this case the detector will detect the background smoke and generate an alarm. Referencing is a system design technique employed to compensate for such rises in background smoke levels and therefore reduce nuisance alarms in high sensitivity areas.
  • Page 76 VESDA-E VES-A10-P-UL Product Guide 5.5.10 General Purpose Inputs Options The General Purpose Inputs options page provides the ability to control the behavior of the Unmonitored and Monitored General Purpose Inputs (GPIs). The GPIs can be configured to initiate a number of different actions. Figure 5-20: General Purpose Input Options The configuration options are as follows: GPI function (Unmonitored) and GPI function (Monitored): Refer to Table 5-3 below for a description...
  • Page 77 VESDA-E VES-A10-P-UL Product Guide Table 5-3: GPI Operation (continued...) Function State Change Fault 761 Mains OK Unmonitored GPI The detector reports “Power Supply AC Input Failure” (fault 761) when ≤ 2 VDC. The detector does not report “Power Supply AC Input Failure” (fault 761) when ≥...
  • Page 78 VESDA-E VES-A10-P-UL Product Guide Table 5-3: GPI Operation (continued...) Function State Change Use Night-time Unmonitored GPI Threshold The detector uses night-time Day or Night Night Day or Night thresholds while ≥ 5 VDC. Monitored GPI Closed The detector uses night-time thresholds while the contact is Open Day or Night Night...
  • Page 79 VESDA-E VES-A10-P-UL Product Guide 5.5.11 Relay Options The Relay options page provides the ability to determine which alarm or fault condition is assigned to each relay and whether each condition is latched. In addition, each relay can be configured Normally Energized or Normally De-Energized.
  • Page 80 VESDA-E VES-A10-P-UL Product Guide Normally Energized: The Normally Energized or Normally De-Energized setting of each relay can be configured using the checkbox in the Normally Energized row: If checked the relay is set Normally Energized. If unchecked the relay is set Normally De-energized. In the Normally De-energized mode no drive is applied to the relay coil until the assigned condition such as Alert or Fire 1 occurs.

  • Page 81: Factory Default Settings

    VESDA-E VES-A10-P-UL Product Guide Factory Default Settings Table 5-4: Default Settings Parameter Default Values Range Affected by Return to Factory Defaults Minimum Maximum command General Network name Blank Location Blank Address (VESDA zone) Detector Password None VESDAnet Preferred port Port A Port A Port B Loop open ended Unchecked...
  • Page 82 VESDA-E VES-A10-P-UL Product Guide Table 5-4: Default Settings (continued...) Parameter Default Values Range Affected by Return to Factory Defaults Minimum Maximum command Scanning – Sector 8 seconds 8 seconds 15 seconds Scan Time Scanning – Scan Delay Work Days Monday through Friday Day Night Changeover Time Enabled Unchecked...
  • Page 83 VESDA-E VES-A10-P-UL Product Guide Table 5-4: Default Settings (continued...) Parameter Default Values Range Affected by Return to Factory Defaults Minimum Maximum command GPI Function Mains OK (Monitored) Button Lockout Unchecked Unchecked Checked Relays Assignment of Relays See Table 4-2 to conditions Normally Energized See Table 4-2 Latching Checked...

  • Page 84: Commissioning

    VESDA-E VES-A10-P-UL Product Guide Commissioning The VES-A10-P-UL has been designed to simplify commissioning processes. The AutoLearn function allows the unit to assess its environment and setup appropriate alarm and flow thresholds. The detector is programmed using the Xtralis VSC software. Once the VES-A10-P-UL detector has been commissioned, it will report alarms and faults according to the parameters defined during installation.

  • Page 85: Autolearn Smoke

    VESDA-E VES-A10-P-UL Product Guide 0.08 %/ft = 0.04 %/ft Example 2: Fire 1 Pipe 1 0.1%/ft (0.3 %/m ) Pipe 2 0.08%/ft (0.25%/m) Pipe 3 0.12%/ft (0.4%/m) Pipe 4 0.06%/ft (0.2%/m) Set the lowest alert threshold to no higher than lowest Fire 1/ #pipes in use. E.g.: %/m = 0.05 %/m 0.06...

  • Page 86: Autolearn Flow

    VESDA-E VES-A10-P-UL Product Guide AutoLearn Flow AutoLearn Flow process is initiated within Xtralis VSC or the AutoConfig button located on the main board of the detector. During the AutoLearn Flow process, the detector normalizes the airflow and then monitors over time the average, maximum and minimum air flow levels and sets suitable air flow thresholds that will not give rise to nuisance flow faults due to normal flow variations.

  • Page 87: Maintenance

    VESDA-E VES-A10-P-UL Product Guide Maintenance To maintain the VES-A10-P-UL detector at its peak performance level, the recommended maintenance schedule shown in Table 7-1 below should be followed. Table 7-1: Recommended maintenance schedule for the VES-A10-P-UL detector Maintenance Check Quarterly Six Monthly Annual Biennial Power Supply and Battery Check Pipe Network Pipe Integrity Smoke Test Check Pipe Flow...

  • Page 88: Open The Door

    VESDA-E VES-A10-P-UL Product Guide Open the Door Several maintenance functions require that front door be opened. Open the Front Door 1. Open the door by inserting a thin screwdriver into hole (B) and pushing firmly. Figure 7-1: Open the door www.xtralis.com...

  • Page 89: Replacing The Filter

    VESDA-E VES-A10-P-UL Product Guide Replacing the Filter To maintain the operational integrity of the detector, it is recommended that the Filter be replaced every two years, or when a filter fault occurs. It may be necessary to replace the filter more often where the detector is installed in environments that experience high levels of contamination.
  • Page 90 VESDA-E VES-A10-P-UL Product Guide 3. Tilt the filter towards the left-hand side of the detector (Figure 7-3). The filter has hinge pins at its base which allow it to be tilted on the chamber manifold. Figure 7-3: Tilt Filter towards the left-hand side of the detector 4.
  • Page 91 VESDA-E VES-A10-P-UL Product Guide Figure 7-5: Engage hinge pins 3. Tilt the filter to the right. 4. Firmly press, as shown in Figure 7-6, until the filter makes a distinct clicking sound and no additional movement is possible. Figure 7-6: Reinstall the Filter www.xtralis.com...

  • Page 92: Replacing The Aspirator

    VESDA-E VES-A10-P-UL Product Guide Replacing the Aspirator Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Ensure the area surrounding the aspirator is clear of dirt and debris prior to replacement. Care must be taken during aspirator replacement.
  • Page 93 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Figure 7-9: Remove aspirator from the detector Reinstall the replacement Aspirator To replace the aspirator, follow the removal procedure in reverse. www.xtralis.com...

  • Page 94: Replacing The Smoke Detection Chamber

    VESDA-E VES-A10-P-UL Product Guide Replacing the Smoke Detection Chamber Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. To replace the Smoke Detection Chamber, perform the following steps: 1.
  • Page 95 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Figure 7-10: Undo Chamber retaining screws www.xtralis.com...
  • Page 96 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 4. Disconnect the chamber loom from the connector labeled J3 (Figure 7-11). Figure 7-11: Disconnect Chamber Loom 5.
  • Page 97 VESDA-E VES-A10-P-UL Product Guide Installing the replacement Smoke Detector Chamber Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 1. Position the two indicated looms as shown in Figure 7-13. Position the indicated loom sections beside the air flow sensing module, not on top of it.
  • Page 98 VESDA-E VES-A10-P-UL Product Guide Figure 7-14: Position the Chamber looms www.xtralis.com...
  • Page 99 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 3. Re-install the chamber as shown in Figure 7-15. Be careful to hold looms (A) and (B) in the position shown so that the looms are not caught between the chamber and other parts of the detector.

  • Page 100: Replacing The Sampling Module

    VESDA-E VES-A10-P-UL Product Guide Replacing the Sampling Module Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. Ensure the area around the Sampling Module is clear of dirt and debris prior to replacement. Care must be taken during Sampling Module replacement.
  • Page 101 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 4. Press on the lever on the connector to release the catch (Figure 7-17). Figure 7-17: Release the Sampling Module cable www.xtralis.com...
  • Page 102 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 5. Undo the three screws holding the Sampling Module (Figure 7-18). Figure 7-18: Undo Sampling Module screws www.xtralis.com...
  • Page 103 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 6. Remove the Sampling Module. Be sure to include the rubber seal on the base of the Sampling Module (Figure 7-19).
  • Page 104 VESDA-E VES-A10-P-UL Product Guide Installing a replacement Sampling Module Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 1. Firmly press the Sampling Module into the detector in the direction of the arrow shown so that the rubber seal on the Sampling Module is seated on the pipes in the detector (Figure 7-20).

  • Page 105: Replacing The Ultrasonics Flow Sensing And Scanning Module

    VESDA-E VES-A10-P-UL Product Guide Replacing the Ultrasonics Flow Sensing and Scanning Module Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. To replace the Ultrasonics Flow Sensing and Scanning Module, perform the following steps: 1.
  • Page 106 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 3. Remove the three screws holding the Ultrasonics Flow Sensing and Scanning Module to the detector base (Figure 7-22).
  • Page 107 VESDA-E VES-A10-P-UL Product Guide www.xtralis.com...
  • Page 108 VESDA-E VES-A10-P-UL Product Guide Precaution: Electrostatic precautions must be followed to prevent damage to the detector. Précaution : Les précautions électrostatiques doivent être respectées pour éviter d'endommager le détecteur. 3. Reconnect the main board loom connection at J2 and antenna connection at J11. www.xtralis.com...

  • Page 109: Spare Parts

    VESDA-E Exhaust Adaptor US VSP-962 VESDA-E Filter VSP-962-20 VESDA-E Filter - 20 Pieces VSP-963 VESDA-E Aspirator VSP-964-04 VESDA-E Smoke Detection Chamber - MK4 VSP-965 VESDA-E Sampling Module VSP-969-04-S VESDA-E VES-A10-P-UL Front Cover - Plastic - LCD - 3.5” Display www.xtralis.com...

  • Page 110: Troubleshooting

    Use the Xtralis VSC software to further investigate the fault. Troubleshooting with the Front Panel Display The main screen of the VESDA-E VES-A10-P-UL touchscreen display features a range of fault indicators. When a fault is generated, the respective indicator will illuminate. Use Xtralis VSC to further investigate the fault by reviewing the event log.

  • Page 111: Troubleshooting With Xtralis Vsc

    VESDA-E VES-A10-P-UL Product Guide Table 8-1: Fault Indicators (continued...) Fault Indicator Description Expansion Module fault, for example a Remote Display which has previously been in the same VESDA Zone as the detector is now not found on the VESDAnet. Troubleshooting with Xtralis VSC The details of fault conditions are written to the detector's event log.

  • Page 112: A Commissioning Forms

    VESDA-E VES-A10-P-UL Product Guide A Commissioning Forms This is the main commissioning form for each customer site. Table A-1: VESDA-E commissioning form Customer Name Site Address Installer (Name & Contact) Commissioner (Name & Contact) Commissioning Checks Done (Y/N) Notes Aspirator speed setting and pipes in use configured as per ASPIRE.
  • Page 113 VESDA-E VES-A10-P-UL Product Guide Fire 2 Fire 1 Action Alert First Alarm Sector 2: Fire 2 Fire 1 Action Alert First Alarm Sector 3: Fire 2 Fire 1 Action Alert First Alarm Sector 4: Fire 2 Fire 1 Action Alert First Alarm Urgent Fault relay connection to fire panel tested (using the Xtralis VSC Urgent Fault Test command).
  • Page 114 VESDA-E VES-A10-P-UL Product Guide Commissioning checklist for the Remote Display/Relay – If used. Commissioning Checks Done (Y/N) Notes Zone number configured. Have checked that no faults are reported. The alarm and fault relay outputs are wired to the fire panel. Test the Remote Display/Relay’s Relay output connections to the fire panel using the Xtralis VSC Relay Test command.
  • Page 115 VESDA-E VES-A10-P-UL Product Guide Sector 4: Fire 2 Fire 1 Action Alert First Alarm Fire 1 relay connection from Remote Display/Relay to fire panel tested (using the Xtralis VSC Alarm Test Command for the detector). Urgent Fault relay connection from Remote Display/Relay to fire panel tested (using the Xtralis VSC Alarm Test Command for the detector).

  • Page 116: Ves-A10-P-Ul Detector Commissioning Configuration

    VESDA-E VES-A10-P-UL Product Guide VES-A10-P-UL Detector Commissioning Configuration To record the detector's configuration you can print it using Xtralis VSC. To print the configuration select the detector on the Xtralis VSC tree view at left and choose the Print command on the File menu. ASPIRE Data Print the ASPIRE Installation Data Pack (IDP) in order to record the ASPIRE modeling results for the system.
  • Page 117 VESDA-E VES-A10-P-UL Product Guide B Glossary Table B-1: Glossary Term Description A Aspirator Impeller type fan used to draw sampled air into the detector. AutoLearn Smoke A feature which allows the detector to learn its environment (background pollution, differences between day and night operations within the facility etc) in order to set appropriate alarm thresholds for that environment.
  • Page 118 VESDA-E VES-A10-P-UL Product Guide Table B-1: Glossary (continued...) Term Description O Obscuration The reduction in light transmission per meter or per foot due to the presence of particulates. R Referencing Referencing is a technique used to reduce false alarms. It requires VESDAnet. A separate detector takes readings of the background level of smoke and pollutants outside of the protected area.
  • Page 119 VESDA-E VES-A10-P-UL Product Guide Index reset return to factory defaults access level set system date and time 50, 68 standby 50, 68 start air flow fault test start alarm test accessories start AutoLearn flow display module 9, 37-38 start AutoLearn smoke programmer 38, 97 start lamp test...
  • Page 120 VESDA-E VES-A10-P-UL Product Guide exhaust 4, 10, 15-18, 29, 41-43 maintenance check pipe flow FACP 37, 39, 97, 104 check pipe network fault 3-6, 9, 11, 34, 37, 39, 41, 53, 59, 63, 66, 68, 71, 76, 97-98 clean sampling point airflow filter inspection filter...
  • Page 121 VESDA-E VES-A10-P-UL Product Guide network 10, 15, 104 network design 15-16 sampling module 4, 87, 96 network testing sensitivity 3, 10, 104 size settings pipe flow rate 15, 71 default pipe length significant smoke change pipe network 3-4, 15, 59 specifications pipes in use 6, 15, 59 alarm range...
  • Page 122 VESDA-E VES-A10-P-UL Product Guide zone 53-54, 74, 104 www.xtralis.com...
  • Page 123 All technical data is correct at the time of publication and is subject to changes without notice. All Intellectual www.xtralis.com Property including but not limited to trademarks, copyrights, patent are hereby acknowledged. You agree not to Doc. No. 35947_A4 copy, communicate to the public, adapt, distribute, transfer, sell, modify or publish any contents of this document Part No.

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