Field Device Access Point User`s Guide
Contents
1. OWDOC X260 en 220A This document provides information about the parameters associated with OneWireless devices You can download Honeywell documentation from http www honeywellprocess com web site www honeywell com 2 Introduction to FDAP Related topics FDAP description on page 8 Types of FDAPs on page 10 Physical description of FDAP on page 11 Features of FDAP on page 13 FDAP security on page 14 FDAP technical specification and compliance information on page 15 Honeywell 7 2 INTRODUCTION TO FDAP 2 1 FDAP description The Field Device Access Point FDAP is a ruggedized industrial radio device intended for use in hazardous location to provide wireless connectivity for ISA100 Wireless compatible field devices As an industrial meshing access point FDAP provides secure and reliable wireless coverage for ISA100 Wireless field devices It also serves as a routing access point for ISA100 Wireless field devices and is located between the wired DCS network and ISA100 Wireless based wireless field devices Once deployed in the field FDAPs self discover and self organize into a managed secure and redundant wireless field device mesh network With FDAPs wireless field devices do not have to route data from other field devices The following figure illustrates how FDAPs are used in a OneWireless Network 4 A 1SA100 11a field device network I Wired Et2. ii 44 5 4 Monitor using 45 5 Monitor USING TEPOS sore arre or iion aia ETE E oa era 46 6 FDAP Maintenance and Troubleshooting eee nrnnennnnntnnennns 47 6 1 Replace am EDAD iecore tee v EUER TUER UNIV RERO OR TOT ETE REIR p POE ies 48 6 2 49 6 3 ED AP firmware a odere rre tron ae aao d Ven pa RF oasi 50 64 Troubleshoot an EDAP oiim aaa cien cer cric adr irre c ek eR ci a FA Eg ra urbc ES EL EET ERE FER E 51 I Lu mm 53 7 1 Documentation feedback oit cen ERR C 54 7 2 How to report a security vulnerability 55 Honeywell 3 CONTENTS 4 www honeywell com 1 About this guide This document describes the procedures to install configure and operate the Field Device Access Point FDAP FDAP is one of the components in the OneWireless Network solution for industrial control Intended audience This guide is intended for people who are responsible for planning administering and operating the OneWireless Network These people include Plant Managers Process Engineers and System Administrators Prerequisite skills It is assumed that you are familiar with the operation of OneWireless Network Experion system software and the plant processes which Experion controls Mi
3. Device handheld the Restart Count and Device Drop off Count are reset to 0 Communication Redundancy Displays the Communication Redundancy State Communication Redundancy Ratio details The Communication Redundancy State is the redundancy communication link between the primary and secondary parent Select the Comm Redun Alarm check box to enable the Non Redundant Communication alarm for this FDAP Attention This alarm is applicable only when the FDAP is acting as an FDAP router Diagnostics Displays the ISA100 Wireless radio diagnostics details Network Time Protocol Displays the Time Master Preferred Round Trip Time Time Sync Drift details Time Master Preferred Time Master preferred is set if the Node Device is NTP Sync capable or incapable Time Sync Drift Time Sync Drift is the time drift of the Node Device from its Parent in clock ticks Round trip time The duration of the response of the Ping from system manager Over The Air provisioning Consists of the over the air provisioning parameters for enabling and disabling over the air provisioning It also displays the time remaining for over the air provisioning www honeywell com 4 FDAP CONFIGURATION Panel Group elements Description Data Layer Management Radio Power Level Displays the transmission power level The default power level is 16 dBm 5 Access Point Summary Device Manageme
4. a rugged industrial enclosure that acts as a bridge between the field device network and wireless backhaul network such as IEEE 802 11 WLAN Honeywell 13 2 INTRODUCTION TO FDAP 2 5 FDAP security OneWireless Network protects plant information and ensures safe operations with industry standard 128 bit encryption at the mesh Wi Fi and wireless field device level The FDAP offers a robust embedded ISA100 Wireless security FDAP authentication In addition to data encryption ISA100 Wireless standard requires each FDAP to be authenticated before joining the network OneWireless Network relies on a more secured IR authentication key distribution method as it requires users to be physically next to the FDAP to add it to the network The authentication keys are generated and managed by the WDM A Provisioning Device handheld is used to upload the authentication keys from the WDM to Provisioning Device handheld and to download keys to FDAPs using IR media The IR media is used to send an authentication key from the Provisioning Device handheld to the FDAP Therefore all Provisioning Device handhelds and FDAPs have IR ports for device commissioning The keys are encrypted when distributed over the network Once a key is deployed to an FDAP it is validated by the WDM before the FDAP can join the OneWireless Network Key deployment is a one time activity that is the devices can rejoin the network after power down or after any other service interruption
5. availability in such applications Fast Ethernet FDAP has 10 100 Mbps Fast Ethernet interface and can be integrated into any network that supports Ethernet communication Field Mesh network Multiple FDAPs can form a self forming self healing wireless mesh network This extends the range and coverage of the wireless sensor network and provides redundant communication paths for improved data availability Unlike battery power field devices FDAPs are line powered and so can aggregate data from multiple field devices including other FDAPs without concerns about battery life Reduced cost FDAP reduces wireless field device cost infrastructure cost and cost per wireless I O It reduces the number of ISA100 Wireless routing devices and offers wireless coverage for ISA100 Wireless field devices It has lesser installation cost than Access Points for sensor only applications Access points FDAP acts as a routing access point for wireless field devices and it is designed for sensor only network for monitoring application segment IPv6 device FDAP is an Internet Protocol version 4 IPv4 device The IPv4 protocol provides an end to end data transmission across multiple IP networks FDAP gets the IP address from DHCP Server in Field Device Network FDN You can ping an FDAP from the FDN network You cannot ping an FDAP from the Plant Control Network PCN You cannot ping an FDAP when used as a Router Backbone router FDAP is a backbone router in
6. can be used to monitor the status of the authenticated FDAP and Provisioning Device handheld displays status as Discover Secure Joined or Not Joined You can read and set various FDAP parameters through the Provisioning Device handheld If the FDAP is not joining the network you can read the FDAP parameter data through the Provisioning Device handheld and troubleshoot 44 www honeywell com 5 FDAP MONITORING 5 4 Monitor using events You can monitor system events generated by the FDAP Events are generated when the FDAP joins the network when the FDAP is Online or when the FDAP is Offline or switched off You can also export the event log created for a particular time period For more information about monitoring device using events refer to the Wireless Device Manager User 5 Guide Honeywell 45 5 FDAP MONITORING 5 5 Monitor using reports 46 You can generate and view various reports about connectivity and device health of FDAPs in a network You can generate and view the following reports Device health overview Device summary Device history Connection summary Connection history You can print the report and save the report in csv format For more information about reports refer to the Wireless Device Manager User 5 Guide www honeywell com 6 FDAP Maintenance and Troubleshooting Related topics Replace an FDAP on page 48 Remove an FDAP on page 49 Upgrade an FDAP firmware on pag
7. configure the WDM using the First Time Configuration Wizard The First Time Configuration wizard appears only for the first log on For more information about First Time Configuration and OneWireless user interface details refer to the Wireless Device Manager User 5 Guide 32 www honeywell com 4 FDAP CONFIGURATION 4 2 Provision an FDAP The FDAP should be given a unique authentication key to associate it with the wireless network in which it is installed and operated The authentication keys are generated and managed by the WDM You can provision an FDAP using over the air provisioning or using a Provisioning Device handheld A Provisioning Device handheld is used to upload the authentication keys from the WDM to the Provisioning Device handheld and then download the keys to FDAPs using IR media You can send provisioning information security wireless from Provisioning Device handheld to the FDAP using IR communication link Once the unit is set up and the authentication is completed the FDAP joins the network and starts communicating Attention Before provisioning an FDAP ensure that you have configured the WDM using the First Time Configuration Wizard and the authentication keys are transferred to the Provisioning Device handheld from the WDM For more information about the procedure to provision an FDAP refer to the Wireless Device Manager User 5 Guide Honeywell 33 4 FDAP CONFIGURATION 4 3 Description of FDAP para
8. drain wire grounded inside the enclosure as displayed in Figure 7 Ethernet and field DC power Secure all connections and wires and connect the cover ground connection lug to the enclosure cover to complete the wiring 24VDC feed safety ground feed 5688 Figure 7 Ethernet and field DC power Attention For installations that require CE mark compliance the DC power source must be a CE mark approved power supply In addition the DC cable between the approved DC power source must be no more than 3 0 meters 9 8 feet from the FDAP www honeywell com 3 FDAP INSTALLATION 3 7 2 AC power wiring When powered from an external AC source the power cable should be terminated at the terminal block on the AC DC conversion module marked as 24 VDC Power Brick as displayed in Figure 8 Ethernet and field AC power To facilitate wiring remove the Power Brick assembly from the enclosure by loosening the two retaining screws and sliding the brick assembly out Terminate the AC cables at the AC terminal block on the Power Brick module The module has polarity markings for Live L Neutral N and Ground Ensure that all connections are secure and then slide the module back into the enclosure and secure it with the retaining screws Secure all connections and wires and connect the cover ground connection lug to the enclosure cover to complete the wiring Attention If an AC power option is ordered from the
9. factory the DC output of the power conversion module should be pre wired to the DC terminal block on the Power Board Verify that the connection is secure and has the correct polarity as marked cover ground connection OGG Power Board CATSE feed 100 240 5688 VAC Figure 8 Ethernet and field AC power 3 7 3 Ethernet wiring FDAP has one Ethernet input for optional connection to a wired network or a wireless access point If the FDAP is connected to a wired Ethernet you should run the Ethernet cabling from the control system through the Honeywell 27 3 FDAP INSTALLATION conduit to the FDAP site You have to install the FDAP based on the Ethernet connection If Ethernet cable is connected it acts as an FDAP access point and if the Ethernet cable connection is removed it acts as a line powered FR routing device An 8 position Insulation Displacement Connector IDC terminal block allows twisted pair Ethernet cable to be connected to the FDAP without stripping the wires or crimping on modular RJ 45 plugs The drain wire from the CATSE cable shield should be connected to the internal grounding point on the conduit hub The cable should be solid core to ensure good signal quality and performance of up to 100 m Terminating the Ethernet cable To terminate the Ethernet cable perform the following steps 1 Strip the outer jacket of the CAT5e cable and connect the shield drain wire to the internal grounding lug on the conduit h
10. over the air For more information about the procedure to upgrade a firmware for FDAP refer to the Wireless Device Manager User 5 Guide 50 www honeywell com 6 FDAP MAINTENANCE AND TROUBLESHOOTING 6 4 Troubleshoot an FDAP FDAP does not have any user serviceable parts inside the FDAP enclosure any failure within the FDAP requires a hardware replacement If a fault or a failure is indicated or suspected in an FDAP in the network there are many ways to diagnose a problem You can diagnose a problem using the following methods Diagnose using events Diagnose using reports Diagnose using system logs Diagnose using Provisioning Device handheld System logs The system log contains events logged in the system The system log information is helpful to System Administrators Field Engineers and technical support personnel You can generate and view the system log details You can save the system log details in tar gz format For more information about system logs refer to the Wireless Device Manager User 5 Guide Recovering from failures Failure indication may be signaled through the FDAP status LEDs You can restart the FDAP if a failure is suspected For more information about the procedure to restart the FDAP refer to the Wireless Device Manager User 5 Guide Honeywell 51 6 FDAP MAINTENANCE AND TROUBLESHOOTING 52 www honeywell com 7 Notices Other trademarks Microsoft and SQL Server are either registered trademar
11. 0 Routing Level 0 1SA100 Time Synchronization Time Master Tag Name FDAP2_2 Time Master Address 3 Primary Parent FDAP2_2 Primary Address 3 Secondary Parent FDAP2 2 Secondary Address 3 Time Distribution Level 0 be up to 16 alphanumeric characters long and it should begin with an alphabet Status Displays the device status as Joined or Offline Default Map You can select the required map on which the device must be placed Description Displays the entered description for the device You can type the required description for the device Identification Displays the identification details like Vendor Model device type Serial Number EU ID of the device Radio Revision firmware revision number Template Type and Template Revision www honeywell com 4 FDAP CONFIGURATION Panel Group elements Description ISA100 Network Address Displays the network address details like IPv6 Address 128 bit network address EUI64 unique ID Short Address 16 bit number assigned by system manager and the Routing Level Note When you move the mouse pointer over the partially visible data on the Property Panel the complete data is visible ISA100 Time Synchronization Displays the tag name and the 16 bit address of the time master of the device and the time distribution level Device Management FDAPS b Access Point Summary Device Manageme
12. Honeywell OneWireless Field Device Access Point User s Guide OWDOC X256 en 220A October 2013 Release 220 Honeywell Document Release Issue Date OWDOC X256 en 220A 220 0 October 2013 Disclaimer This document contains Honeywell proprietary information Information contained herein is to be used solely for the purpose submitted and no part of this document or its contents shall be reproduced published or disclosed to a third party without the express permission of Honeywell International Sarl While this information is presented in good faith and believed to be accurate Honeywell disclaims the implied warranties of merchantability and fitness for a purpose and makes no express warranties except as may be stated in its written agreement with and for its customer In no event is Honeywell liable to anyone for any direct special or consequential damages The information and specifications in this document are subject to change without notice Copyright 2013 Honeywell International Sarl 2 www honeywell com Contents 1 About this lla 5 2 Introduction to d 7 2 1 descriptos 8 2 2 Types OT i MP HR 10 2 3 Physical description of EDAD i aee ne eere ae 11 2 4 Features oT EDAD inae od ond cerea AF ee PVT i 13 2 5 duy P 14 2 6 FDAP te
13. The enclosure may be mounted on a pole or on a flat surface such as a wall using the available optional mounting brackets The enclosure measures approximately 20 cm x 13 cm x 7 cm Lx Wx H 2 2 m cp 2 et QU Figure 2 Physical description of FDAP IR port The FDAP has an externally accessible IR port that is used for communicating with the Provisioning Device handheld The Provisioning Device handheld is used for commissioning the FDAP reading and setting the various FDAP parameters The IR port has a range of 20 cm and a beam width of 20 degrees FDAP communication radio FDAP has ISA100 Wireless compliant radios that operate in the 2 4 GHz ISM band It uses spatial antenna diversity with sophisticated error correction schemes to improve communication and increase coverage in a typical industrial complex where multi path propagation is prevalent Honeywell 11 2 INTRODUCTION TO FDAP 12 Antennas FDAP uses dual antenna diversity to improve communication reliability in severe multi path environment This helps in improving radio coverage and provides robust communication links thereby reducing infrastructure cost and cost per wireless field device FDAP has integral omni directional antennas and it also supports a variety of high and low gain directional and omni directional antennas to provide flexibility in installation and to maximize performance of the wireless system For more information about certi
14. and an autonomous power subsystem that operates within a range of AC DC inputs Standalone FDAP supports ISA100 Wireless based radio communication and it does not support Wi Fi or other radio technologies The standalone FDAP may be used for Class I Division 1 Zone 0 1 applications that require IS protection methods and design technique or Class I Division 2 Zone 2 and general purpose applications FDAP as field router A standalone FDAP can be used as a Field Router FR If FDAP is not connected to the physical Ethernet it functions as a line powered FR FDAP as a line powered FR option can be used for extending field mesh into hazardous environments where normal infrastructure nodes are not suitable 10 www honeywell com 2 3 Physical description of FDAP FDAP enclosure The FDAP has a rugged die cast aluminum enclosure for outdoor use The enclosure and all auxiliary components are designed to meet IP66 and NEMA Type 4X ratings for protection against dust and water ingress The enclosure has two water tight type N bulkhead connectors for antenna spatial diversity in the FDAP radios The half inch rigid conduit hub has a gasket to seal out water and dust A rigid conduit hub internal and external ground studs and a removable cover are provided for field installation Externally accessible Infrared IR port allows the device to be commissioned in the field Three status LEDs provide information about power device health and communication
15. aterials required to provide a proper ground are defined by local regulations and should be obtained locally to ensure that the correct safety environment is achieved Honeywell 23 3 FDAP INSTALLATION 3 6 Mount the FDAP The assembled FDAP along with antennas and lightning suppressors if required can be mounted in its site location The FDAP enclosure can be mounted on a 2 inch pole or on a wall using the appropriate optional mounting kit that is available with the unit 3 6 1 Pole mounting When pole mounting the FDAP you can assemble and install the mounting hardware at the site The mounting kit includes the following items Mounting plate e U bolts with nuts Screws to attach the FDAP to the mounting plate The pole mounting kit comprises of mounting plate U bolts and nuts as displayed in Figure 5 Pole mounting When using the mounting plate for the pole installation secure the FDAP to the bracket using the screws supplied with the bracket kit The FDAP can be mounted to the left or to the right of the pole using the same mounting hardware It can also be mounted inline with the pole However if the integral antennas are too close to the pole it might cause RF communication problem For inline mounting the FDAP integral antennas should be on the top of the mounting pole Se 27111 Figure 5 Pole mounting 24 www honeywell com 3 FDAP INSTALLATION 3 6 2 Wall or flat surface mounting The wa
16. chnical specification and compliance information i 15 3 FDAPInstallatioh 17 3 1 Prerequisites Tor anstallation eren suorone esas eter terrre o retra rhe testes ear 18 3 2 Inspect FDAP and associated 19 3 3 Identify FDAP site locations eee 20 EE Connect antennas 21 3 5 Ground the EDAD ne XO ERR Gd e Yee TAE EATUR 23 3 6 Mo nt the EDAP seen AEREA ERA RENEE RRSSAA ie EE ERU tare 24 3 6 1 Pole mounting onere erm errat io XE iaia 24 3 6 2 Wallor flat surface mounting sueco ail 25 3 7 Connect power cables and Ethernet cables sess nene enne trennen eene nnne 26 3 7 1 DC power wiring ira lasciai 26 31 2 AC disi 27 37 3 Ethernet e 27 3 8 Power on andistartup uil aaa i 30 A FDAP Configura Li lieti 31 4 1 Establish connection between WDM and FDAP i eene nnne nennen nnne nennen nns 32 4 2 Provision an EDAP rc araldica 33 4 3 Description of FDAP parameters i 34 2 FRARMONIOTN i 41 5 1 Overview about monitoring i irre aan 42 5 2 Verify connectivity USING Maps iaia ica iaia 43 5 3 Monitor using Provisioning Device handheld
17. crosoft Windows operating systems and network administration tasks How to use this guide This guide provides guidance on FDAP description FDAP installation FDAP configuration FDAP monitoring FDAP maintenance and troubleshooting Required Honeywell documentation The following documents and sources contain additional information required for deploying OneWireless Network It is recommended to have these documents readily available for reference Document Document ID Description OneWireless Network OWDOC X253 en 220A This document provides Planning and Installation information about planning Guide designing and setting up the OneWireless Network using WDM FDAPs and field devices OneWireless WDM User s OWDOC X254 en 220A This document describes the Guide procedures to provision configure operate and monitor an ISA100 Wireless wireless field device network using Wireless Device Manager WDM Honeywell 5 1 ABOUT THIS GUIDE Document Document ID Description OneWireless Wireless LAN Controller Configuration Guide OWDOC X255 en 220A This document provides information about planning designing setting up and configuring a OneWireless Network using WDM FDAPs Cisco 1552S APs and field devices FDAP Regulatory Compliance Guide This document describes the FDAP Regulatory Compliance information OneWireless Parameter Reference Dictionary
18. ction algorithm Redundancy Gain Displays the redundancy gain which is the minimum value of total packets received by antenna 1 without any packet errors minimum value of total packets received by antenna 2 without any packet errors total packets received by antenna 1 and 2 without any packet errors Reset Statistics Resets all the radio diversity values Click to reset all the radio diversity values Notes w Notes Displays notes entered for the FDAP You can type notes regarding the FDAP Honeywell 39 4 FDAP CONFIGURATION 40 www honeywell com 5 FDAP Monitoring Related topics Overview about monitoring on page 42 Verify connectivity using maps on page 43 Monitor using Provisioning Device handheld on page 44 Monitor using events on page 45 Monitor using reports on page 46 Honeywell 41 5 FDAP MONITORING 5 1 Overview about monitoring 42 The status and performance of FDAPs operating in a wireless network can be monitored in a number of ways The Monitoring tab in the OneWireless user interface enables you to monitor FDAPs that are commissioned in the network The Alarms amp Event tab in the OneWireless user interface enables you to monitor events generated by the FDAPs The Reports tab in the OneWireless user interface enables you to view and generate custom reports about connectivity and device health of the FDAPs in a network www honeyw
19. e Security Manager System Manager Gateway Access Point Routing Device and I O Device If the Ethernet is plugged it acts as an access point and if the Ethernet is unplugged it acts as a routing device Assigned Role Displays the current assigned role of the device Command Consists of the Join Command parameter which is used to restart a device or to reset a device to factory default state Join Command parameter has the following options None Warm Restart To restart a device Warm Restart preserves static and constant attributes data Restart as Provisioned To reset the device to factory default state Restart as Provisioned corresponds to the provisioned state of the device in which the device only retains the data received during its provisioning Honeywell 35 4 FDAP CONFIGURATION 36 Panel Group elements Description Uptime and Connectivity Displays the uptime and connectivity details which are as follows Uptime Time in seconds during which the device is online Restart Count Number of times the device is restarted The Restart Count begins from one when it is reset to default Device Drop Off Count Number of times the device is disconnected from the network Reset Statistics Resets only the Device Drop off Count Click to reset the Device Drop Off Count Attention When a device is reset to default through a Provisioning
20. e 50 Troubleshoot an FDAP on page 51 Honeywell 47 6 FDAP MAINTENANCE AND TROUBLESHOOTING 6 1 Replace an FDAP You can replace a failed FDAP with a new device only if the new device specification is identical to the failed one For more information about the procedure to replace an FDAP refer to the Wireless Device Manager User s Guide m A aca All Devices vl Templates Manage Users A Manage Roles OneWireless Showing 16 of 16 Devices Replace P Radio Change Password 8 Software Monitoring Alarms amp Reports da da Events 1 delete gt Point Picker Export System Log E Display Filtering Provisioning Channel Maintenance Upgrade System administrator Figure 12 Maintenance icons Attention Any maintenance required is limited only to the external enclosure surface cable connections antennas and the firmware A failed unit should be returned to Honeywell for maintenance repair or replacement 48 www honeywell com 6 FDAP MAINTENANCE AND TROUBLESHOOTING 6 2 Remove an FDAP You can remove a failed FDAP from the network Once the FDAP is removed it will not be able to join the network until it is assigned a new provisioning key For more information about the procedure to remove an FDAP refer to the Wireless Device Manager User 5 Guide Honeywell 49 6 FDAP MAINTENANCE AND TROUBLESHOOTING 6 3 Upgrade an FDAP firmware FDAPs have only radio firmware and the radio firmware can be upgraded
21. ell com 5 FDAP MONITORING 5 2 Verify connectivity using maps The OneWireless user interface enables you to create multiple locations and upload site map to the location You can position the devices on the map to reflect the physical design and structure of your plant You can visually inspect network topology map and connectivity You can navigate to the device in the topology map and check the link signal quality and connectivity In addition you can examine device communication statistics information like Receive Signal Quality Index RSQI and Receive Signal Strength Index RSSI This helps the network services engineer to verify the ISA100 Wireless mesh connectivity and FDAP connectivity in the OneWireless user interface Fog Name wee 13 por 73 E Pct o2 E roses m HON_XYR_AIDO toss 1052 1026 mao ro 102 rims 10 mT rao o rose ross 2 miro reweot Q uos Figure 11 Map view For more information about setting up a monitoring area and for location specific monitoring refer to the Wireless Device Manager User 5 Guide Honeywell 43 5 FDAP MONITORING 5 3 Monitor using Provisioning Device handheld FDAP is authenticated using a Provisioning Device handheld Once the FDAP is authenticated it joins the network Provisioning Device handheld
22. fied antennas and the allowable maximum RF output power refer to the FDAP Regulatory Compliance Guide FDAP has integrated lightning suppressors on the antenna ports The lightning suppressors are permanently attached and do not require field maintenance Lighting suppressors are required for all outdoor installations or indoor installations where FDAP may be subjected to lightning surge Optional remote mounted lightning suppressors are available for use in application where the remote antenna cable is exposed to lightning surge LED indicators FDAP has three LEDs for indicating the status and health of the device For more information about LEDs refer to Table 3 LED indicators www honeywell com 2 INTRODUCTION TO FDAP 2 4 Features of FDAP The features of FDAP are as follows 24 VDC or 120 230 VAC powered FDAP operates at 24 VDC or 120 230 VAC and provides better latency than battery based wireless field device mesh network It enables the use of wireless field devices for applications requiring fast update rates less than 10 seconds and short latency less than 250 ms and in areas where Wi Fi radios are not allowed Antenna diversity FDAP uses spatial antenna diversity to improve communication success rates and to improve coverage in multi path environments This is necessary for the majority of industrial application where there is no direct line of site between field devices Antenna diversity significantly improves data
23. he completion of network site planning and RF assessment activities the locations for FDAPs are identified Locations can be mapped so that the site preparation for FDAPs can be started For more information about prerequisites refer to Prerequisites for installation on page 18 20 www honeywell com 3 FDAP INSTALLATION 3 4 Connect antennas Antennas play a critical role in the setup and operation of wireless mesh systems Depending upon the results of the site assessment and the requirements of the installed environment proper antenna type omni directional versus directional low gain versus high gains and so on should be determined The various types of antennas offered with FDAP enhance the wireless coverage of the field devices in multi path environment It is recommended to use same antenna type and gain on both antennas for optimum performance Attention After the antennas are connected the connections should be sealed to protect them from the external environment Figure 3 Antenna components Honeywell 21 3 FDAP INSTALLATION Figure 4 Antenna connections 22 www honeywell com 3 FDAP INSTALLATION 3 5 Ground the FDAP The FDAP provides internal and external grounding point to meet various local and regulatory grounding requirements You should ensure that the FDAPs are grounded properly by a certified and authorized personnel and that it conforms to all applicable codes and regulations The m
24. hernet Modbus OPC HART Level 2 Process Control Network OneWireless user interface ISA100 11a Field devices Figure 1 OneWireless Network FDAP uses IEEE 802 15 4 standard based radio technology and combines spatial diversity with advanced error correction schemes to communicate in a complex multi path environment and in large communication areas It has an Ethernet interface for connection to the backbone network and an ISA100 Wireless compliant radio to connect to the wireless field device network It is a standalone pole mountable intrinsically safe device suitable for use in hazardous locations It is normally installed in the same area where industrial field devices are installed FDAP supports 10 100 Mbps Fast Ethernet and has spatial antenna diversity Table 1 FDAP models Access Point type Model numbers Power options Suitable for FDAP certified for Class I Division 1 Zone 0 1 Areas FDAPI 18 24VDC Intrinsic Safety IS source for Class I Division 1 Zone 0 1 applications www honeywell com 2 INTRODUCTION TO FDAP Access Point type Model numbers Power options Suitable for FDAP certified for Class I FDAP2 120 230 VAC Class I Division 2 Zone 2 and general Division 2 Zone 2 Areas 18 24VDC purpose applications Honeywell 9 2 INTRODUCTION TO FDAP 2 2 Types of FDAPs Standalone FDAP A standalone FDAP has a radio board
25. ional or security capabilities of the software Honeywell investigates all reports of security vulnerabilities affecting Honeywell products and services To report a potential security vulnerability against any Honeywell product please follow the instructions at https honeywell com pages vulnerabilityreporting aspx Submit the requested information to Honeywell using one of the following methods Send an email to security honeywell com or Contact your local Honeywell Technical Assistance Center TAC or support center listed in the Support and other contacts section of this document Honeywell 55 7 NOTICES 56 www honeywell com
26. ks or trademarks of Microsoft Corporation in the United States and or other countries Trademarks that appear in this document are used only to the benefit of the trademark owner with no intention of trademark infringement Third party licenses This product may contain or be derived from materials including software of third parties The third party materials may be subject to licenses notices restrictions and obligations imposed by the licensor The licenses notices restrictions and obligations if any may be found in the materials accompanying the product in the documents or files accompanying such third party materials in a file named third_party licenses on the media containing the product or at http www honeywell com ps thirdpartylicenses Honeywell 53 7 NOTICES 7 1 Documentation feedback You can find the most up to date documents on the Honeywell Process Solutions website at http www honeywellprocess com If you have comments about Honeywell Process Solutions documentation send your feedback to hpsdocs honeywell com Use this email address to provide feedback or to report errors and omissions in the documentation For immediate help with a technical problem contact your local support center 54 www honeywell com 7 NOTICES 7 2 How to report a security vulnerability For the purpose of submission a security vulnerability is defined as a software defect or weakness that can be exploited to reduce the operat
27. ll mounting kit comprises a wall mounting plate and four screws as displayed in Figure 6 Wall mounting Both mounting plates fasten to four threaded bosses on the back of the FDAP The FDAP should not be mounted on metallic walls because the integral antennas are too close to the wall and causes RF propagation problems LITT Figure 6 Wall mounting Honeywell 25 3 FDAP INSTALLATION 3 7 Connect power cables and Ethernet cables FDAP has one Ethernet cable and one power cable You have to construct conduit and cable runs for power and Ethernet The FDAP can be powered directly by universal AC power supply 90 240 VAC 50 60 Hz or by external 24 VDC power supply such as distributed DC source Ensure that all wires inside the enclosure are routed and secured properly as displayed in Figure 7 Ethernet and field DC power and Figure 8 Ethernet and field AC power The FDAP has integrated terminal blocks that allow field wiring to be directly terminated inside the FDAP without an additional external junction box Power both AC and DC connection Ethernet and Serial connections can be terminated inside the FDAP 3 7 1 DC power wiring 26 When powered from an external 24 VDC source the power cable should be terminated directly onto the two position terminal block on the Power Board The polarity of the connector is marked next to the connector on the Power Board The power cable should be shielded and the
28. meters Once the FDAP joins the network you can configure and monitor the FDAP by using OneWireless user interface The Selection Panel in the One Wireless user interface provides a list of all the devices in OneWireless Network The Property Panel in the OneWireless user interface provides configuration properties of all the devices configured in the OneWireless Network Select the required FDAP from the list of devices in the Selection Panel and then view the FDAP parameter details in the Property Panel 5 Access Point Summary Device Management Data Layer Management Neighbor Diagnostics Channel Diagnostics Statistics DMAP Radio Disconnect History Radio Diversity Wie eee Te w Y Notes Figure 10 FDAP Property Panel The following table describes the FDAP parameter details Table 4 FDAP parameters in the selection panel Panel Group elements Description Access Point Summary Tag Name Displays the default device name You can rename the device Device name can Y Access Point Summary Tag Name FDAP2_2 Status Joined Description Location FDAP 1 Default Map LPFR_Topolody Vendor Honeywell Model FDAP2 Serial Number 1033022 Radio Revision OW220 1 65 0 Template Type Standard Template Revision 2 15 100 Network Address IPv6 Address FEBO 4E7B COAB 0065 EUI64 004084FFFFO8002E Network Address 3 Primary Parent Primary Address 0 Secondary Parent Secondary Address
29. n the LEDs are turned ON Table 3 LED indicators LED Description Power LED Green Indicates that the power is supplied to FDAP When the FDAP is powered ON Power LED turns ON automatically Status LED Heart Beat LED Green Indicates the software status of FDAP factory image The Status LED blinks ON OFF once every second to indicate that the FDAP factory firmware is in the working condition Comm LED Green Indicates the Ethernet link activity e The LED is steady when there is a valid Ethernet link but no data activity The LED blinks when there is data activity on the Ethernet link 30 www honeywell com 4 FDAP Configuration Related topics Establish connection between WDM and FDAP on page 32 Provision an FDAP on page 33 Description of FDAP parameters on page 34 Honeywell 31 4 FDAP CONFIGURATION 4 1 Establish connection between WDM and FDAP To establish connection between WDMA and FDAP power on the FDAP and connect FDAP to the WOM through FDN port of WDM If you are using multiple FDAPs you can use an Ethernet switch to connect the FDAPs to the WDM WDM enables you to commission configure and monitor the FDAPs connected to it from a centralized location All FDAP configuration parameters are easily accessible from the WDM which centralizes all key functions required to manage the field device network and wireless field devices Log on to the OneWireless user interface and
30. nt Data Layer Management Radio Power Level Transmit Power Level 16 b Neighbor Diagnostics b Channel Diagnostics Statistics DMAP Radio Disconnect History Notes Displays the neighboring devices diagnostics like the Device Tag Name RSSI RSQI rire uuu c Transmit Fail Transmit CCA Backoff MS C MA EU I iiia Transmit NACK and Clock Sigma Device Management FDAP5 Data Layer Management Neighbor Diagnostics Tag Name Connnection Type RSSI dBm comi UIOD_3F1 UIOD_534 TD_1081 MD_427 UIOD_21E TD_1020 UID 512 Channel Diagnostics Statistics DMAP Radio Disconnect History Notes Channel Diagnostics Displays the device s channel diagnostics like channel No ACK and CCA Backoff FDAPS Access Point Summary Device Management Data Layer Management b Neighbor Diagnostics Channel Diagnostics Channel No ACK CCA Backoff b Statistics DMAP b Radio Disconnect History gt Notes Honeywell 37 4 FDAP CONFIGURATION 38 Panel Group elements Description Statistics DMAP FDAPS Access Point Summary Device Management Data Layer Management Neighbor Diagnostics Channel Diagnostics Statistics DMAP Read Message Totals Request Response Timeout Write Message Totals Request Response Timeout Execute Message Totals Request Response 46 Timeout 0 Radio Disconnect History No
31. nt Power Power Supply Status Line Powered Routing Assignment Routing Assignment Not Applicable x Join Assignment Join Enabled X Join Status Join Enabled Role Capability Provisioning Device Access Point Assigned Role Access Point OO600000 00000000 Command Join Command None Jj Uptime and Connectivity Uptime 66072 Restart Count 25 Device Drop Off Count 0 Communication Redundancy Comm Redun State Not Applicable Comm Redun Ratio 0 percent Comm Alarm seconds Diagnostics 000 Network Time Protocol Time Master Preferred TRUE Round Trip Time 5 ticks I Time Sync Drift 3 ticks Over The Air Provisioning Time Remaining 0 minutes Power Displays the power supply status as Line Powered for access points or Battery Powered for routing devices By default power status is always Line Powered for FDAP Routing Assignment Displays the routing configuration of the device The different types of configuration are Non Routing Device Routing Device and Not Applicable By default Routing Assignment is not applicable for FDAP and it should not be changed Role Capability Displays the capable roles of a device By default FDAP can be an access point device if you enable over the air provisioning then it can act as a provisioning device The different roles that can be configured are Provisioning Device handheld System Time Sourc
32. rmation For information about FDAP technical specification and regulatory compliance information refer to the OneWireless R200 Field Device Access Point Specifications document available at Honeywell Support Web site Honeywell 15 2 INTRODUCTION TO FDAP 16 www honeywell com 3 FDAP Installation Related topics Prerequisites for installation on page 18 Inspect FDAP and associated hardware on page 19 Identify FDAP site locations on page 20 Connect antennas on page 21 Ground the FDAP on page 23 Mount the FDAP on page 24 Connect power cables and Ethernet cables on page 26 Power on and startup on page 30 Honeywell 17 3 FDAP INSTALLATION 3 1 Prerequisites for installation Complete the network planning before installing FDAP For information about network planning refer to the Network Planning and Installation Guide Complete the following tasks before installing the FDAPs in the wireless network Network site planning Complete site planning to understand how a wireless network can be built and supported for your application using OneWireless components RFsite assessment Perform an RF site assessment when designing a large wireless network The site assessment should at a minimum include the following tasks Conduct the site assessment when the plant is operating so that maximum possible interference can be measured and addressed Conduct RF spectrum analysi
33. s on the 2 40 2 49 GHz band to detect any potential RF interference Strong interference sources should be addressed removed avoided or minimized before the installation Note that some frequencies may not be available for use in some locations and countries Arrange point to point mesh in various locations to measure the RF propagation ability in the site Received Signal Strength Indicator RSSI can serve as an indicator of the RF environment TCP IP throughput testing and UDP IP throughput and packet drop rate testing should be conducted in all selected locations to measure the quality of the signal strength in the site FDAP placement Determine FDAP placement after the completion of the network planning and RF assessment activities Power requirements Identify power requirements for the network Determine wired cable runs to provide DC power to the FDAP Ethernet cable runs Determine Ethernet cable runs for FDAP and or any other wired nodes in the network 18 www honeywell com 3 FDAP INSTALLATION 3 2 Inspect FDAP and associated hardware Ensure that all the hardware that are necessary for completing the installation for each FDAP are available Examine whether the FDAP and the associated hardware like antennas and mounting brackets are damaged Honeywell 19 3 FDAP INSTALLATION 3 3 Identify FDAP site locations The location of all FDAPs should be determined to ensure optimum operation in a wireless network After t
34. s without re keying the device OneWireless supports a key rotation mechanism to enable a secure network Once the devices join the network a master key and a session key is assigned to each device and the session key can be rotated on a periodic basis The key rotation period can be configured from the One Wireless user interface For best system performance it is recommended to set the key rotation period as infinite In addition from OneWireless R210 release onwards over the air provisioning is supported This allows the FDAPs to join the secure OneWireless Network and establish communication with other devices and the WDM Embedded ISA100 Wireless security To reduce security threats ISA100 Wireless requires all process data to be 128 bit encrypted The data is encrypted at the source and decrypted at the destination to provide end to end security for the process data The FDAPs self discover other neighboring ISA100 Wireless routing devices such as Access Points and routing ISA100 Wireless field devices to form a reliable and secure ISA100 Wireless based wireless mesh network Wireless routing algorithm enables an FDAP to dynamically identify the best route to send data to and from wireless field devices This algorithm enables the field device mesh network to dynamically re optimize itself when FDAPs are added to or removed from the network www honeywell com 2 INTRODUCTION TO FDAP 2 6 FDAP technical specification and compliance info
35. tes Displays the details about the ISA100 Wireless data link layer statistics for a selected device Displays the Read Message Totals Write Message Totals and Execute Message Totals details Radio Disconnect History 5 Access Point Summary Device Management Data Layer Management Neighbor Diagnostics Channel Diagnostics Statistics DMAP Radio Disconnect History Radio Disconnect History Power On Displays the radio disconnect history details Radio Diversity Error Distribution Count Displays the error distribution counter which corresponds to the error packet counter for the number of bytes corrected The error packet counter is the total count of error packets received on both antennas with Cyclic Redundancy Check CRC error www honeywell com 4 FDAP CONFIGURATION Panel Group elements Description FDAPS Access Point Summary Device Management Data Layer Management Neighbor Diagnostics Channel Diagnostics Statistics DMAP Radio Disconnect History Radio Diversity Error Distribution Count Statistics Diversity Operation Est Correction Gain 0 Redundancy Gain 2 Statistics Diversity Operation Displays the FDAP antenna operational status The status can be Both Radios Radio 1 or Radio 2 Correction Gain Displays the correction gain which is the total packet corrected by packet error corre
36. ub Do not strip the individual twisted pair wires 2 Connect the twisted pair wires to the IDC following the color chart marked next to the IDC Note that the color chart on the FDAP Power and I O board assumes that the cable conforms to EIA TIA 568B color code which is the predominant color code for CATSe cable Refer to Table 2 Ethernet IDC block pin out for the necessary adjustment if the older EIA TIA 568B color coded cable is used Most of the CATSE cables conform to TIA EIA 568B Table 2 Ethernet IDC block pin out PIN TIA EIA 568A TIA EIA 568B Data 1 Transmit i 2 Transmit 3 Receive a x ia fn ZZZ 4 Unused 5 Unused 6 Receive 7 Unused 8 Unused 28 www honeywell com 3 FDAP INSTALLATION Testing Ethernet connection A standard RJ 45 modular jack is available on the FDAP Power and IO board The RJ 45 jack may be used to test cable integrity after terminating the cable at the IDC connector After terminating the field cable at the IDC connect the cable tester to the RJ 45 jack An end to end cable test can then be performed to ensure proper wiring at the IDC connector Honeywell 29 3 FDAP INSTALLATION 3 8 Power on and startup The FDAP has status LEDs to indicate the various stages of operation Figure 9 LED indicators The following table identifies the LEDs and describes the operating conditions of the unit whe
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