FCC ID: S5751460094 Field Device Access Point Gen3 Anchor2, Field Device Access Point Gen3 Plus Anchor2

ONEWIRELESS RELEASE 323 Field Device Access Point User's Guide OWDOC-X256-en-323A June 2022 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 Srl. 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 2022- Honeywell International Srl 2 Table of contents ABOUT THIS GUIDE .................................................................................................................................................................. 6 Revision history ........................................................................................................................................................................... 6 Intended audience ..................................................................................................................................................................... 6 Prerequisite skills ....................................................................................................................................................................... 6 How to use this guide ............................................................................................................................................................... 6 Related guides ............................................................................................................................................................................. 6 INTRODUCTION TO FDAP ..................................................................................................................................................... 8 FDAP description ....................................................................................................................................................................... 8 FDAP types ................................................................................................................................................................................. 10 FDAP as backbone router ........................................................................................................................................... 10 FDAP as field router ....................................................................................................................................................... 10 Physical description............................................................................................................................................................... 11 FDAP Gen3 and FDAP Gen3 Anchor components ........................................................................................ 11 FDAP2 components ...................................................................................................................................................... 12 Features of FDAP .................................................................................................................................................................... 14 FDAP security ............................................................................................................................................................................ 15 FDAP compliance information ......................................................................................................................................... 17 FDAP INSTALLATION .......................................................................................................................................................... 18 Prerequisites .............................................................................................................................................................................. 18 Inspect FDAP and associated hardware ..................................................................................................................... 18 Identify FDAP site locations ............................................................................................................................................... 19 Connect antennas .................................................................................................................................................................. 19 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 19 FDAP2 ................................................................................................................................................................................. 22 Grounding ................................................................................................................................................................................... 22 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 23 FDAP2 ................................................................................................................................................................................. 23 Mount the FDAP ...................................................................................................................................................................... 23 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 23 Connect power cables .......................................................................................................................................................... 28 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 28 FDAP2 ................................................................................................................................................................................. 29 Ethernet wiring ......................................................................................................................................................................... 32 Power on and startup ............................................................................................................................................................ 33 OWDOC-X256-en-323A 3 ABOUT THIS GUIDE FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 33 FDAP2 ................................................................................................................................................................................. 36 FDAP CONFIGURATION ...................................................................................................................................................... 37 Establish connection between WDM and FDAP ..................................................................................................... 37 Provision a FDAP ..................................................................................................................................................................... 37 Description of FDAP parameters .................................................................................................................................... 38 FIELD EXPANDABLE WIRELESS IO ................................................................................................................................ 49 Overview ...................................................................................................................................................................................... 49 FEWIO solution ........................................................................................................................................................................ 50 Converting FDAP Router to FEWIO device ................................................................................................................. 51 Connecting Modbus TCP devices to FEWIO device .............................................................................................. 51 FDAP Gen3 and FDAP Gen 3 Anchor ................................................................................................................... 51 FDAP2 ................................................................................................................................................................................. 52 Connecting Modbus RTU devices to FEWIO device ............................................................................................. 53 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 53 FDAP2 ................................................................................................................................................................................. 55 Configure FEWIO device in WDM ................................................................................................................................... 55 Configuring and viewing the Modbus Registers ..................................................................................................... 58 Converting FEWIO device to FDAP Router ................................................................................................................. 59 Integrating with Experion .................................................................................................................................................... 60 FDAP MONITORING ............................................................................................................................................................. 66 Overview about monitoring ................................................................................................................................................ 66 Verify connectivity using maps ........................................................................................................................................ 66 Monitor using Provisioning Handheld device .......................................................................................................... 67 Monitor using events ............................................................................................................................................................ 67 Monitor using reports ........................................................................................................................................................... 67 FDAP MAINTENANCE AND TROUBLESHOOTING ....................................................................................................... 68 Replace an FDAP ..................................................................................................................................................................... 68 Remove an FDAP ..................................................................................................................................................................... 68 Firmware upgrade ................................................................................................................................................................... 68 Troubleshooting ...................................................................................................................................................................... 68 System logs........................................................................................................................................................................ 68 Recovering from failures ............................................................................................................................................. 69 APPENDIX

........................................................................................................................................................................... 70 Technical Specifications ..................................................................................................................................................... 70 FDAP Gen3 ......................................................................................................................................................................... 70 OWDOC-X256-en-323A 4 FDAP Gen3 Anchor ........................................................................................................................................................ 77 FDAP2 ................................................................................................................................................................................. 80 Dimension Drawing................................................................................................................................................................ 83 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 83 FDAP2 ................................................................................................................................................................................. 84 IS Control Drawing .................................................................................................................................................................. 85 FDAP Gen3 and FDAP Gen3 Anchor .................................................................................................................... 85 FDAP2 (51202683) ....................................................................................................................................................... 90 Label Drawing ........................................................................................................................................................................... 92 FDAP Gen3 ......................................................................................................................................................................... 92 FDAP Gen3 Anchor ........................................................................................................................................................ 93 FDAP2 .............................................................................................................................................................................. 102 NOTICES

......................................................................................................................................................................... 103 OWDOC-X256-en-323A 5 ABOUT THIS GUIDE About this guide This guide describes the procedures to install, configure, and operate the Field Device Access Point (FDAP2), Field Device Access Point Gen3 (FDAP Gen3), and Field Device Access Point Gen3 Anchor (FDAP Gen3 Anchor). FDAP is one of the components in the OneWireless Network solution for industrial control. Revision history Revision Supported Release Date Description A 323 May 2022 Initial release of the document. 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, Microsoft Windows operating systems and netwsork administration tasks. How to use this guide This guide provides guidance on:

FDAP description FDAP installation FDAP configuration FDAP monitoring FDAP maintenance and troubleshooting Related guides The following guides and sources contain additional information required for deploying OneWireless network. It is recommended to have these guides readily available for reference. OWDOC-X256-en-323A 6 Guide Description OneWireless Network Provides information about planning, designing, and Planning and setting up the OneWireless network using WDM, FDAPs, Installation Guide and field devices.

(OWDOC-X253-en) OneWireless WDM Describes the procedures to provision, configure, operate, Users Guide (OWDOC-

and monitor an ISA100 Wireless field device network X254-en) using Wireless Device Manager (WDM). OneWireless Wireless Provides information about planning, designing, setting LAN Controller up, and configuring a OneWireless network using WDM, Configuration Guide FDAPs, Cisco 1552S APs, and field devices.

(OWDOC-X255-en) OneWireless Process Describes the Control Access Point User Guide (OWDOC-

X718-en) procedures to install, configure, and operate Process Control Access Point (PCAP). FDAP Regulatory Describes the FDAP Regulatory Compliance information. Compliance Guide OneWireless Parameter Provides information about the parameters associated Reference Dictionary with OneWireless devices.

(OWDOC-X260-en) To download the latest Honeywell documentation, go to https://process.honeywell.com. OWDOC-X256-en-323A 7 Introduction to FDAP FDAP description INTRODUCTION TO FDAP Note that in this guide, a reference to wireless field devices includes ISA100 Wireless devices, WirelessHART devices, and Wired HART devices unless otherwise mentioned. Specific device type is mentioned as and when applicable. The Field Device Access Point (FDAP) is a ruggedized industrial radio device intended for use in hazardous locations to provide wireless connectivity for Wireless compatible field devices. As an industrial meshing access point, FDAP provides secure and reliable wireless coverage for wireless field devices. It also serves as a routing access point for wireless field devices and is located between the wired DCS network and 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. Fig. 1. OneWireless Network OWDOC-X256-en-323A 8 FDAP and FDAP Gen3:

The FDAP and FDAP Gen3 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 a 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 and FDAP Gen3 supports 10/100 Mbps Fast Ethernet and has spatial antenna diversity. FDAP Gen3 Anchor:

The FDAP Gen3 Anchor uses IEEE 802.15.4 standard based radio technology to communicate with ISA100.11a, WirelessHART devices and RTLS tags. FDAP Gen3 Anchor supports 10/100 Mbps Fast Ethernet interface for connection to the backbone network and a 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. Table. 1. FDAP models Access Point type Model numbers Power options Suitable for FDAP Gen3 certified for Class I OW-FDAP32 24V DC, PoE Type -2 Class I Division 2, Zone 2 Division 2, Zone 2 Areas powered and general-purpose applications FDAP Gen3 Anchor certified for Class OW- FDAP32/3P 2.5 Watts@24VDC, Class I Division 2, Zone 2 I Division 2, Zone 2 Areas PoE: 3W powered and general-purpose applications FDAP certified for Class I Division 1, FDAP1 18 - 30V DC Intrinsic Safety (IS) source Zone 0/1 Areas for Class I Division 1, Zone 0/1 applications FDAP certified for Class I Division 2, FDAP2 90 - 264V AC Class I Division 2, Zone 2 Zone 2 Areas Operating Range: 18 30 and general-purpose V DC Typical: 24 V applications OWDOC-X256-en-323A 9 INTRODUCTION TO FDAP FDAP types FDAP as backbone router The FDAP has a radio board and an autonomous power subsystem that operates within a range of AC/DC inputs. FDAP supports wireless radio communication, and it does not support Wi-Fi or other radio technologies. The FDAP may be used for Class I Division 2, Zone 2 and general-purpose applications. AC is only supported in FDAP1/ FDAP2 models. NOTE FDAP as field router The 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. The FDAP as a line powered FR option can be used for extending field mesh into hazardous environments where normal infrastructure nodes are not suitable. The FDAP may be used as a field router for Class 1 Division 1, Zone 0/1 applications that require IS protection methods and design techniques. This also supports RS-485 communication to transmit data from Modbus RS-485s over Wireless

(FEWIO role). OWDOC-X256-en-323A 10 Physical description FDAP Gen3 and FDAP Gen3 Anchor components FDAP Gen3 and FDAP Gen3 Anchor enclosure The FDAP Gen3 and FDAP Gen3 Anchor have a rugged die-cast aluminum enclosure for outdoor use. The enclosure and all auxiliary components are designed to meet IP66 and IP67 ratings for protection against dust and water ingress. The enclosure has two N-type bulkhead connectors for antenna spatial diversity in the FDAP radios. The two of 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. It has an internal Bluetooth Low Energy (BLE) module, and this allows the device to be commissioned in the field. Six status LEDs provide information about power, device health, Bluetooth, RS-485 and Ethernet communication. 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 47 cm x 29 cm x 5 cm (L x W x H). Fig. 2. FDAP Gen3 and FDAP Gen3 Anchor Bluetooth Low Energy (BLE) Module The FDAP Gen3 and FDAP Gen3 Anchor have an internal BLE module that is used for communicating with the Provisioning Handheld Android device. The Provisioning Handheld device is used for commissioning the FDAP Gen3 and FDAP Gen3 Anchor, reading, and setting the various FDAP Gen3 and FDAP Gen3 Anchor parameters. The BLE module has a range of 10-meter radius. OWDOC-X256-en-323A 11 Communication radio Antennas INTRODUCTION TO FDAP The FDAP Gen3 has 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. The FDAP Gen3 Anchor has wireless compliant radios that operate in the 2.4 GHz ISM band. Communication Radio 1 used for process instrumentation communication with ISA100.11a and WirelessHart devices. Communication Radio 2 used for RTLS application to measure or find the distance between FDAP Gen3 Anchor and RTLS tags location. The FDAP Gen3 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. Dual antenna diversity is only supported in FDAP Gen3 models. NOTE The FDAP Gen3 and FDAP Gen3 Anchor have an integral omni-directional antenna and it also supports a variety of high- and low-gain omni-directional antennas to provide flexibility in installation and to maximize performance of the wireless system. See the FDAP Gen3 Regulatory Compliance Guide for details about certified antennas and the allowable maximum RF output power. The FDAP Gen3 and FDAP Gen3 Anchor have an option to integrate lightning Surge arrestors on the antenna ports. Lighting Surge arrestors are required for all outdoor installations or indoor installations where FDAP Gen3 may be subjected to lightning surge. Optional remote mounted lightning Surge arrestors are available for use in application where the remote antenna cable is exposed to lightning surge. LED indicators The FDAP Gen3 and FDAP Gen3 Anchor have six LEDs for indicating the status and health of the device. For more information about LEDs, see Table 8: LED indicators. FDAP2 components FDAP2 enclosure The FDAP2 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 (FM only) ratings for protection against dust and water ingress. The enclosure has two water-tight type N OWDOC-X256-en-323A 12 bulkhead connectors for antenna spatial diversity in the FDAP2 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. 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

(L x W x H). IR port Fig. 3. Physical description of FDAP The FDAP2 has an externally accessible IR port that is used for communicating with the Provisioning Handheld device. The Provisioning Handheld device is used for commissioning the FDAP2, reading, and setting the various FDAP2 parameters. The IR port has a range of 20 cm and a beam width of 20 degrees. The FDAP2 has 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. Communication radio Antennas The FDAP2 uses dual antenna diversity to improve communication reliability in severe multi-path environments. This helps in improving radio coverage and provides robust communication links thereby reducing infrastructure costs and cost per wireless field device. The FDAP2 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 OWDOC-X256-en-323A 13 INTRODUCTION TO FDAP and to maximize performance of the wireless system. See the FDAP Regulatory Compliance Guide for details about certified antennas and the allowable maximum RF output power. The FDAP2 has integrated lightning Surge arrestors on the antenna ports. The lightning Surge arrestors are permanently attached and do not require field maintenance. Llightning Surge arrestors are required for all outdoor installations or indoor installations where FDAP2 may be subjected to lightning surge. Optional remote mounted lightning Surge arrestors are available for use in application where the remote antenna cable is exposed to lightning surge. LED indicators The FDAP2 has three LEDs for indicating the status and health of the device. For more information about LEDs, see Table 9: LED indicators. Features of FDAP The features of the FDAP are as follows:

DC or Universal AC powered: The FDAP operates at DC or AC 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 milliseconds (ms)) and in areas where Wi-Fi radios are not allowed. AC is supported only in FDAP2 models. NOTE Antenna diversity: The FDAP uses spatial antenna diversity to improve communication success rates and to improve coverage in multi-path environments. This is necessary for most of the industrial applications where there is no direct line of sight between field devices. Antenna diversity significantly improves data availability in such applications. Antenna diversity is supported only in FDAP and FDAP Gen3 models. NOTE Location Tracking: The FDAP Gen3 Anchor has capability to find the distance of Tags. Distance data will be used to compute the location of Tags. Location Tracking is supported only in FDAP Gen3 Anchor. NOTE Fast Ethernet: The FDAP has 10/100 Mbps Fast Ethernet interface and can be integrated into any network that supports Ethernet communication. OWDOC-X256-en-323A 14 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-powered 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: The FDAP reduces wireless field device cost, infrastructure cost, and cost per wireless I/O. It reduces the number of wireless routing devices and offers wireless coverage for wireless field devices. It has lesser installation cost than Access Points for sensor-only applications. Access points: The 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: The FDAP is an Internet Protocol version 4 (IPv4) device. The IPv4 protocol provides an end-to-end data transmission across multiple IP networks. The FDAP gets the IP address from DHCP Server in Field Device Network (FDN). You can ping an FDAP from the FDN network, however you cannot ping an FDAP from the Plant Control Network (PCN). Also, you cannot ping an FDAP when used as a Router. Backbone router: The FDAP is a backbone router in a rugged industrial enclosure that acts as a bridge between the field device network and wireless backhaul network such as IEEE 802.11 WLAN. 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 wireless security. FDAP Gen3 and FDAP Gen3 Anchor Authentication In addition to data encryption, wireless standard requires each FDAP Gen3 and FDAP Gen3 Anchor to be authenticated before joining the network. OneWireless network relies on a more secured Bluetooth Low Energy (BLE) based authentication key distribution method as it requires users to be physically near to the FDAP Gen3 and FDAP Gen3 Anchor to add it to the network. The BLE has a range of 10-meter radius. The authentication keys are generated and managed by the WDM. A Provisioning Handheld device is used to download keys to FDAP Gen3 and FDAP Gen3 Anchor are using BLE. The keys are encrypted when distributed over the network. Once a key is deployed to an FDAP Gen3, it is validated by the WDM before the FDAP Gen3 and FDAP Gen3 Anchor can join the OneWireless network. OWDOC-X256-en-323A 15 FDAP security INTRODUCTION TO FDAP The FDAP Gen3 and FDAP Gen3 Anchor have a default BLE key which is 192021 (6-digit key for pairing), once the FDAP Gen3 connects with NOTE WDM, it is mandatory to change the BLE pin using the WDM user interface. When the FDAP Gen3 and FDAP Gen3 Anchor are reset to default (when not connected to WDM), the BLE key changes back to the default key. FDAP1/ FDAP2 Authentication In addition to data encryption, wireless standard requires each FDAP1/ FDAP2 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 FDAP1/ FDAP2 to add it to the network. The authentication keys are generated and managed by the WDM. A Provisioning Handheld device is used to upload the authentication keys from the WDM to Provisioning Handheld device and to download keys to FDAP1/ FDAP2 using IR media. The IR media is used to send an authentication key from the Provisioning Handheld device to the FDAP1/ FDAP2. Therefore, all Provisioning Handheld devices and FDAP1/ FDAP2 have IR ports for device commissioning. The keys are encrypted when distributed over the network. Once a key is deployed to an FDAP1/

FDAP2, it is validated by the WDM before the FDAP1/ FDAP2 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 interruptions 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 are assigned to each device, and the session key can be rotated on a periodic basis. The key rotation period can be configured from the OneWireless user interface. For best system performance, it is recommended to set the key rotation period as infinite. Beginning with OneWireless R210, over-the-air provisioning is supported for all ISA100 devices. This allows the FDAPs to join the secure OneWireless network and establish communication with other devices and the WDM. Embedded wireless security To reduce security threats, wireless devices require 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 wireless routing devices, such as Access Points, and routing wireless field devices, to form a reliable and secure 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. OWDOC-X256-en-323A 16 FDAP compliance information For information about FDAP Gen3 and FDAP Gen3 Anchor regulatory compliance information, see the latest OneWireless Field Device Access Point Gen3 Specifications Guide available at Honeywell Support Website. For information about FDAP2 regulatory compliance information, see the latest OneWireless Field Device Access Point Specifications Guide available at Honeywell Support Website. OWDOC-X256-en-323A 17 FDAP installation Prerequisites FDAP INSTALLATION Complete the network planning before installing FDAP. For information about network planning, see the Network Planning and Installation Guide (OWDOC-X253-en). Complete the following tasks before installing the FDAP 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. RF site assessment: Perform an RF site assessment when designing a large wireless network. The site assessment must 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 analysis 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 signal strength quality 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. 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 not damaged. OWDOC-X256-en-323A 18 Identify FDAP site locations The location of all FDAP should be determined to ensure optimum operation in a wireless network. After the completion of network site planning and RF assessment activities, the locations for FDAP are identified. Locations can be mapped so that the site preparation for FDAP can be started. For more information about prerequisites, see Prerequisites. 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, fixed versus remote and so on) should be determined. The various types of antennas offered with FDAP Gen3 and FDAP Gen3 Anchor enhance the wireless coverage of the field devices in a multi-path environment. It is recommended to use the same antenna type and gain on both antennas for optimum performance. After the antennas are connected, the connections should be sealed to protect them from the external environment. In environments where ATTENTION conductive deposits can accumulate on antenna, such deposits must be removed to maintain optimum RF characteristics. The conduit openings at the bottom of the FDAP2 must be sealed. FDAP Gen3 and FDAP Gen3 Anchor See the following image for connecting FDAP Gen3 and FDAP Gen3 Anchor antenna. The minimum torque required to meet IP66 and IP 67 ratings is shown in the following image. NOTE OWDOC-X256-en-323A 19 FDAP INSTALLATION Fig. 4. FDAP Gen3 and FDAP Gen3 Anchor Antenna Connection Table. 2. Part number description Item Description 1 2 Lightning surge arrestor 5dBi/8dBi Integral omni antenna Take precautions against electrostatic discharge when handling antenna. CAUTION OWDOC-X256-en-323A 20 Remote antenna connections See the following image for connecting FDAP Gen3 and FDAP Gen3 Anchor antenna in remote. Fig. 5. FDAP Gen3 and FDAP Gen3 Anchor Antenna Connection in remote Table. 3. Part number description Item Description 1 2 8dBi remote omni directional antenna 3m/10m coaxial cable assembly OWDOC-X256-en-323A 21 FDAP2 See the following image for connecting FDAP2 antenna. FDAP INSTALLATION Grounding Fig. 6. Antenna components Take precautions against electrostatic discharge when handling antenna. CAUTION The FDAP provides internal and external grounding points to meet various local and regulatory grounding requirements. Ensure that the FDAP is grounded properly by a certified and authorized personnel, and that it conforms to all applicable codes and regulations. The materials required to provide a proper grounding is defined by local regulations and should be obtained locally to ensure that the correct safety environment is achieved. 1. The recommended wire gauge of the ground cable from FDAP ground to the ground pit should be at least 12AWG or better. ATTENTION 2. Ground pit should be maintained as per the NEC recommendation. The ground resistance should be less than 5 ohms so that it provides safety to FDAP under environmental transients such as lightning, sandstorm, and so on. OWDOC-X256-en-323A 22 FDAP Gen3 and FDAP Gen3 Anchor See the following figure for grounding points for FDAP Gen3 and FDAP Gen3 Anchor. Fig. 7. Grounding points for FDAP Gen3 and FDAP Gen3 Anchor Use one of the two grounding points marked in the image for grounding. Fasten the screws and washers with a torque value of 12 to 14 inch-pounds (in-lb). FDAP2 See the following figure for grounding points for FDAP2. Fig. 8. Grounding points for FDAP 1/FADP2 Mount the FDAP FDAP Gen3 and FDAP Gen3 Anchor The assembled FDAP Gen3 and FDAP Gen3 Anchor, along with antennas and lightning suppressors (if required) can be mounted in the site location. The FDAP Gen3 and FDAP Gen3 Anchor 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. OWDOC-X256-en-323A 23 Pole mounting FDAP INSTALLATION When pole mounting the FDAP Gen3 and FDAP Gen3 Anchor, you can assemble and install the mounting hardware at the site. The mounting kit includes the following items:

1. Mounting plate 2. U-bolts with nuts 3. Screws (to attach the FDAP Gen3 and FDAP Gen3 Anchor to the mounting plate) 4. Washers (split lock washer, flat lock washer, lock washer) The pole mounting kit comprises of mounting plate, U-bolts with nuts, screws and washers as displayed in the following figures. When using the mounting plate for the pole installation, secure the FDAP Gen3 and FDAP Gen3 Anchor to the bracket using the screws supplied with the bracket kit. The FDAP Gen3 and FDAP Gen3 Anchor can be mounted to the left or to the right of the pole using the same mounting hardware. It can also be mounted in line with the pole. However, if the integral antennas are too close to the pole, it may cause RF communication problem. For inline mounting, the FDAP Gen3 and FDAP Gen3 Anchor integral antennas should be on the top of the mounting pole. Fig. 9. Pole mounting bracket assembling on FDAP Gen3 and FDAP Gen3 Anchor OWDOC-X256-en-323A 24 Fig. 10. Pole mounting of FDAP Gen3 and FDAP Gen3 Anchor Table. 4. Part number description Item Description 1 2 3 4 5 6 7 Flat style mounting bracket 316ss

"U" bolt m10 316ss Hex nut, m10, 316ss Lock washer, m10, 316ss Flat lock washer,1/4, 316ss Split lock washer, 1/4, 316ss Screw, 1/4-20 x 5/8, 316ss Wall or flat surface mounting When wall mounting the FDAP Gen3 and FDAP Gen3 Anchor, you can assemble and install the mounting hardware at the site. The mounting kit includes the following items:

1. Mounting plate 2. Screws (to attach the FDAP Gen3 and FDAP Gen3 Anchor to the mounting plate) 3. Washers (split lock washer, flat lock washer) Both mounting plates fasten to four threaded bosses on the back of the FDAP Gen3 and FDAP Gen3 Anchor. The FDAP Gen3 and FDAP Gen3 Anchor should not be mounted on metallic walls because the integral antennas are too close to the wall and may cause RF propagation problems. OWDOC-X256-en-323A 25 FDAP INSTALLATION FDAP2 Pole mounting Fig. 11. Wall mounting of FDAP Gen3 and FDAP Gen3 Anchor Table. 5. Part number description Item Description 1 2 3 4 Wall mounting bracket, 316ss Flat lock washer,1/4, 316ss Split lock washer, 1 / 4, 316ss Screw, 1/4-20 x 5/8 l, 316ss The assembled FDAP2, along with antennas and lightning suppressors (if required) can be mounted in the site location. The FDAP2 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. When pole mounting the FDAP2, you can assemble and install the mounting hardware at the site. The mounting kit includes the following items:

1. Mounting plate 2. U-bolts with nuts 3. Screws (to attach the FDAP2 to the mounting plate) When using the mounting plate for the pole installation, secure the FDAP2 to the bracket using the screws supplied with the bracket kit. The FDAP2 can be mounted to the left or to the right of the pole using the same mounting hardware. It can also be mounted in line with the pole. However, if the integral antennas are too close to the pole, it may cause RF communication problems. For inline mounting, the FDAP2 integral antennas should be on the top of the mounting pole. OWDOC-X256-en-323A 26 Wall or flat surface mounting Fig. 12. Pole mounting of FDAP2 The wall mounting kit comprises a wall mounting plate and four screws as displayed in the following figure. Both mounting plates fasten to four threaded bosses on the back of the FDAP2. The FDAP2 should not be mounted on metallic walls because the integral antennas are too close to the wall and may cause RF propagation problems. Fig. 13. Wall mounting of FDAP2 OWDOC-X256-en-323A 27 Connect power cables FDAP Gen3 and FDAP Gen3 Anchor FDAP INSTALLATION The FDAP Gen3 and FDAP Gen3 Anchor have one Ethernet cable and one power cable. Ethernet interconnection is limited to installations outside Class I Division 1, Zone 0/1 locations. You must construct conduit and cable runs for power and Ethernet. The FDAP Gen3 and FDAP Gen3 Anchor can be powered directly by external DC power supply such as, distributed DC source. Ensure that all wires inside the enclosure are routed and secured properly as displayed in the following figure. The FDAP Gen3 and FDAP Gen3 Anchor have integrated terminal blocks that allow field wiring to be directly terminated inside the FDAP Gen3 and FDAP Gen3 Anchor have one Ethernet cable and one power cable. without an additional external junction box. DC Power connection, Ethernet and Serial connections can be terminated outside the FDAP Gen3 and FDAP Gen3 Anchor have one Ethernet cable and one power cable. It is recommended to use RS-485 or Ethernet one at a time to meet IP66 and IP67 requirements. ATTENTION When powered from an external DC source, the power cable should be terminated to the two-position terminal block (E2) 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 drain wire grounded inside the enclosure as displayed in the following figure 14 and figure 15. DC power wiring Fig. 14. FDAP Gen3 Ethernet and field DC power OWDOC-X256-en-323A 28 Fig. 15. FDAP Gen3 Anchor Ethernet and field DC power Table. 6. Part number description Item Description 1 2 3 Cable gland assembly Cable tie Screw The shield wire from cable must be secured on the chassis on the terminal power board. For installations that require CE-mark compliance, the DC power source must be a CE-mark approved power supply. In addition, the DC cable ATTENTION between the approved DC power source must be no more than 3 meters

(9.8 feet) from the FDAP Gen3 and FDAP Gen3 Anchor. FDAP2 The FDAP2 has one Ethernet cable and one power cable. Ethernet interconnection is limited to installations outside Class I Division 1, Zone 0/1 locations. You must construct conduit and cable runs for power and Ethernet. The FDAP2 can be powered directly by universal AC power supply or by external DC power supply such as distributed DC source. Ensure that all wires inside the enclosure are routed and secured properly as displayed in the following figures. The FDAP2 has integrated terminal blocks that allow field wiring to OWDOC-X256-en-323A 29 be directly terminated inside the FDAP2 without an additional external junction box. Power

(both AC and DC) connection, Ethernet and Serial connections can be terminated inside FDAP INSTALLATION the FDAP2. DC power wiring When powered from an external DC source, the power cable should be terminated directly onto the terminal block of the DC Ferrite Assembly. Connected wires then pass through the mounted ferrites on the assembly board, which then connects to 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 drain wire grounded inside the enclosure as displayed in the following figure. Secure all connections and wires and connect the cover-ground connection lug to the enclosure cover to complete the wiring. Fig. 16. Ethernet and field DC power For installations that require CE-mark compliance, the DC power source must be a CE-mark approved power supply. In addition, the DC cable ATTENTION between the approved DC power source must be no more than 3 meters

(9.8 feet) from the FDAP2. 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 the following figure. OWDOC-X256-en-323A 30 1. To facilitate wiring, remove the Power Brick assembly from the enclosure by loosening the two retaining screws and sliding the brick assembly out. 2. 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. 3. Ensure that all connections are secure and then slide the module back into the enclosure and secure it with the retaining screws. 4. Secure all connections and wires and connect the cover-ground connection lug to the enclosure cover to complete the wiring. If an AC power option is ordered from the factory, the DC output of the power conversion module should be pre-wired to the DC terminal block ATTENTION on the Power Board. Verify that the connection is secure and has the correct polarity as marked. Fig. 17. Ethernet and field AC power Note that AC wiring only applies to the FDAP2, which is FM approved. AC wiring is not covered under IECEx certification. ATTENTION OWDOC-X256-en-323A 31 Ethernet wiring FDAP INSTALLATION The 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 conduit to the FDAP site. You must install the FDAP based on the Ethernet connection. If the 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). Ethernet interconnection is limited to installations outside Class I Division 1, Zone 0/1 locations. An 8-position Insulation Displacement Connector

(IDC) terminal block allows a 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 CAT5E cable shield should be connected to the internal grounding point on the conduit hub. The cable should be of solid core type to ensure good signal quality and performance of up to 100 meters. Terminating the Ethernet cable Perform the following procedure to terminates the Ethernet cable. 1. Strip the outer jacket of the CAT5e cable and connect the shield drain wire to the internal grounding lug on the conduit hub. Do not strip the individual twisted pair wires. ATTENTION 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 CAT5e cable. See the following table for the necessary adjustment if the older EIA/TIA 568B color coded cable is used. Most of the CAT5E cables conform to TIA/EIA 568B. Table. 7. Ethernet IDC block pin-out PIN #

TIA/EIA 568A TIA/EIA 568B Data 1 2 3 Transmit+

Transmit-

Receive+

OWDOC-X256-en-323A 32 PIN #

TIA/EIA 568A TIA/EIA 568B Data 4 5 6 7 8 Unused Unused Receive-

Unused Unused Testing Ethernet connection for FDAP2 A standard RJ-45 modular jack is available on the FDAP2 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. Power on and startup FDAP Gen3 and FDAP Gen3 Anchor The FDAP Gen3 and FDAP Gen3 Anchor have one Ethernet cable and one power cable. has six status LEDs to indicate the various stages of operation. OWDOC-X256-en-323A 33 FDAP INSTALLATION Fig. 18. LED indicators The following table identifies the LEDs and describes the operating conditions of the unit when the LEDs are turned ON. OWDOC-X256-en-323A 34 LED Description Table. 8. LED indicators Power LED (Red) Indicates that the power is supplied to The FDAP Gen3 and FDAP Gen3 Anchor have one Ethernet cable and one power cable. When the FDAP Gen3 and FDAP Gen3 Anchor are powered ON, the Power LED turns ON automatically. Ethernet Active LED Indicates that FDAP Gen3 and FDAP Gen3 Anchor are connected to

(Green) FDN network. When the FDAP Gen3 and FDAP Gen3 Anchor are connected to FDN Network, the Ethernet Active LED turns ON automatically. Ethernet Link LED Indicates the Ethernet link activity.

(Green) 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. Status Indicates the software status of FDAP Gen3 and FDAP Gen3 Anchor LED/Heartbeat LED factory image. The Status LED blinks ON/OFF once every second to

(Green) indicate that the FDAP Gen3 and FDAP Gen3 Anchor factory firmware is in the working condition. BLE Status LED BLE Status LED provides the different states of BLE connection:

(Green) ALWAYS OFF - Advertisement off, controlled through WDM UI, typically done when FDAP has already joined the network 10 seconds OFF, 1 second ON FDAP Gen3 and FDAP Gen3 Anchor are in advertisement mode, waiting for connection from BLE Central (for example, Mobile App) seconds OFF, 2 seconds ON FDAP Gen3 and FDAP Gen3 Anchor are connected to BLE Central (for example, Mobile App). NOTE: Only connected, not yet BONDED 1 second OFF, 1 second ON - FDAP Gen3 and FDAP Gen3 Anchor are bonded to BLE Central (for example, Mobile App) ALWAYS ON - FDAP Gen3 and FDAP Gen3 Anchor are ready for secure data exchange with BLE Central (for example, Mobile App) Special case of BLE module firmware download, where LED is toggled every 250ms (that is 250ms ON, 250ms OFF). NOTE: When BLE module firmware download is in progress, connection to FDAP Gen3 and FDAP Gen3 Anchor by BLE Central (for example, Mobile App) is not possible. OWDOC-X256-en-323A 35 FDAP INSTALLATION LED Description RS-485 status

(Green) Indicates the RS-485 ports activity. The LED blinks when there is data activity on the RS-485 port. FDAP2 The FDAP2 has status LEDs to indicate the various stages of operation. Fig. 19. LED indicators The following table identifies the LEDs and describes the operating conditions of the unit when the LEDs are turned ON. LED Description Table. 9. LED indicators Power LED (Green) Indicates that the power is supplied to FDAP2. When the FDAP2 is powered ON, the Power LED turns ON automatically. Status Indicates the software status of FDAP2 factory image. The Status LED LED/Heartbeat LED blinks ON/OFF once every second to indicate that the FDAP2 factory

(Green) firmware is in the working condition. Comm LED (Green) Indicates the Ethernet link activity. 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. OWDOC-X256-en-323A 36 FDAP configuration Establish connection between WDM and FDAP To establish connection between WDM and FDAP, power on the FDAP and connect FDAP to the WDM through the 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 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, see the Wireless Device Manager Users Guide (OWDOC-X254-en). Physical access to critical devices NOTE A malicious operation of critical WDM and access points results in system shutdown, starting the system unexpected system start up or restart, or impact process control. The critical WDM components include, Expansion Processor Module (EPM), Control Processor Module (CPM), network switches for I/O network and host communication network, I/O Modules, power supply modules, and simulator. Critical OneWireless modules include, WDM, FDAP, Access Point, WirelessHART field devices, Provisioning Handheld Device, and switches. For maximum security, the WDM must be placed in a cabinet or locked closet to protect against unauthorized access to the critical modules. Provision a 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 Handheld device. A Provisioning Handheld device is used to upload the authentication keys from the WDM to the Provisioning Handheld device, and then download the keys to FDAPs using IR media. The provisioning information (security, wireless) can be sent from a Provisioning Handheld device to the FDAP using the IR communication link. Once the unit is set up and the authentication is completed, the FDAP joins the network and starts communicating. Before provisioning an FDAP, ensure that you have configured the WDM using the First Time Configuration Wizard and the authentication keys ATTENTION are transferred to the Provisioning Handheld device from the WDM. OWDOC-X256-en-323A 37 For more information about the procedure to provision an FDAP, see the Wireless Device Manager Users Guide (OWDOC-X254-en). FDAP CONFIGURATION Description of FDAP parameters Once the FDAP joins the network, you can configure and monitor the FDAP by using OneWireless user interface. The Managed Devices in the OneWireless user interface provides a list of all the devices in the OneWireless network. The Property Panel in the Managed Devices of OneWireless user interface provides configuration properties of all the devices configured in the OneWireless network. Select the required FDAP from the list of devices from the Managed Devices and then view the FDAP parameter details in the Property Panel. Fig. 20. FDAP Property Panel OWDOC-X256-en-323A 38 The following table describes the FDAP parameter details. Panel Access Point Summary Table. 10. FDAP parameters in the selection panel Group elements Description Tag Name: Displays the default device name. You can rename the device. Device name can 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. ISA100 Network Displays the network address details like Address 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 Displays the tag name and the 16bit Synchronization address of the time master of the device, and the time distribution level. OWDOC-X256-en-323A 39 Device Management Power Displays the power supply status as Line FDAP CONFIGURATION Powered (for access points) or Battery Powered (for routing devices). By default, power status is always Line Powered. Routing Displays the routing configuration of the Assignment 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 Handheld device, System Time Source, 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. OWDOC-X256-en-323A 40 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 Uptime and Displays the uptime and connectivity details, Connectivity 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 Handheld device, the Restart Count and Device Drop-off Count are reset to 0. OWDOC-X256-en-323A 41 FDAP CONFIGURATION Communication Displays the Communication Redundancy Redundancy State, Communication Redundancy Ratio details The Communication Redundancy State is the redundancy communication link between the primary and secondary parent Select the Communication Redundancy Alarm check box to enable the "Non-Redundant Communication" alarm for the FDAP ATTENTION This alarm is applicable only when the FDAP is acting as an FDAP router. ISA100 Protocol Displays the supported version of ISA100 Version protocol. Diagnostics Displays the ISA100 Wireless radio diagnostics details. Network Time Displays the Time Master Preferred, Round Protocol 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 the system manager. OWDOC-X256-en-323A 42 Over-The-Air Consists of the over-the-air provisioning provisioning parameters for enabling and disabling over-

the-air provisioning. It also displays the time remaining for over-the-air provisioning. WirelessHART Check the Enable option if WDM supports Backward WirelessHART. Compatibility License Displays the status of the WDM license. WirelessHART Displays the status of WirelessHART device Routing joining is allowed or not. Assignment Bandwidth Display the bandwidth consumed by FDAP Statistics or FDAP Gen3 or FDAP Gen3 Anchor as router and approximate device can join under this FDAP or FDAP Gen3 or FDAP Gen3 Anchor as router. Bandwidth statistics displays Overall bandwidth consumed and the breakup of ISA100 and WirelessHART device bandwidth consumed. Approximate ISA100 device with 10sec or above publish rate can join the network Approximate WirelessHART device with 8sec or above publish rate can join the network. Role Conversion FDAP or FDAP Gen3 or FDAP Gen3 Anchor as router can be converted to FEWIO role or vice versa. OWDOC-X256-en-323A 43 FDAP CONFIGURATION BLE options Display Key: Select the Display Key check box and click apply option to view the Pass key. Pass key: Pass key is a six-digit numeric key provided for Bluetooth pairing. Update the new key and click Apply option to change the pass key. Status: Status of Bluetooth is shown in the Status field. Enable button - Enables the Bluetooth module to be ready for connection. Disable button - Once disabled you cannot discover the FDAP or FDAP Gen3 using the Provisioning handheld device. NOTE:

BLE Options are only applicable to FDAP Gen3 and FDAP Gen3 Anchor. Data Layer Management Radio Power Level Displays the transmission power level. The default power level is 16 dBm. Neighbor Diagnostics Displays the neighboring devices diagnostics like the Device Tag Name, RSSI, RSQI, Transmit Fail, Transmit CCA Back off, Transmit NACK, and Clock Sigma. OWDOC-X256-en-323A 44 Channel Diagnostics Displays the devices channel diagnostics like channel, No ACK, and CCA back off. Statistics (DMAP) 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. Network Address Filter The Filter option allows you to customize the device list by filtering the devices. Radio Disconnect History Displays the radio disconnect history details. OWDOC-X256-en-323A 45 Radio Diversity Error Distribution Displays the error distribution counter, which Count corresponds to the error packet counter for FDAP CONFIGURATION the number of bytes corrected. The error packet counter is the total count of error packets received on both antennas with the Cyclic Redundancy Check (CRC) error. Statistics Diversity Operation: Displays the FDAP or FDAP Gen3 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 correction 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. Ranging Technique: Displays the Ranging technique used between Tag and FDAP Gen 3 Anchor. The following are the Ranging Techniques. One way Ranging Two way Ranging Hybrid Ranging Hybrid Techniques Starts with One way Ranging, during retry it switches to Two way Ranging. Distance Offset: Displays the minimum expected distance between tag and FDAP Gen 3 Anchor. Location NOTE:

Location Options are only applicable to FDAP Gen3 Anchor. OWDOC-X256-en-323A 46 NOTE:

Antenna Cable Length: Displays the cable Location Options are only applicable to FDAP Gen3 Anchor. length of the antenna. Operating mode:

Location Participates in trilateration to detect tags location. Zone Detects tags presence and measures distance between tag and anchor. Checkpoint Detects tags presence. None Does not participate in RTLS activities. Check Point Type: Applicable when operating mode is in Checkpoint. None No checkpoint configured. Login. Logout. Mustering. Restricted. Storage. Zone: Zone name where FDAP Gen 3 Anchor is installed. Site: Site name where FDAP Gen 3 Anchor is installed. Area: Area name where FDAP Gen 3 Anchor is installed. Altitude Detection: Enable/disable altitude detection in FDAP Gen 3 Anchor. 0 - Disable Disable altitude detection in FDAP Gen 3 Anchor. 1 - Enable Enable altitude detection in FDAP Gen 3 Anchor. OWDOC-X256-en-323A 47 FDAP CONFIGURATION NOTE:

Altitude Reference: Altitude computed with Location Options are only applicable to FDAP sea level as reference. Gen3 Anchor. Absolute Altitude computed from sea level. Relative Altitude computed relative to installation site. NOTE:

ENU Coordinates X Co-ordinate: East North Up or local Location Options are only applicable to FDAP Gen3 Anchor. tangent plane X-axis co-ordinate. Y Co-ordinate: East North Up or local tangent plane Y-axis co-ordinate. Z Co-ordinate: East North Up or local tangent plane Z-axis co-ordinate. Units of X, Y, and Z Co-ordinates must be entered in cm. NOTE:

GPS Parameters GPS Latitude: World Geodetic System 84 Location Options are only applicable to FDAP

(WGS84) latitude. Gen3 Anchor. Notes GPS Longitude: World Geodetic System 84

(WGS84) longitude. Altitude: Altitude or height or elevation in cm units of anchor from Earths sea level. GPS latitude and longitude are representing in deg with six digits after the decimal point. READ COORDINATES: On clicking READ COORDINATES, WDM will read the current ENU Coordinates and GPS parameters values from the Anchors. Displays notes entered for the FDAP or FDAP Gen3 and FDAP Gen3 Anchor. OWDOC-X256-en-323A 48 Field Expandable Wireless IO Overview Field Expandable Wireless IO (FEWIO) is an innovative solution aimed to provide a method for integrating legacy Modbus devices into OneWireless system. FDAP is configured in a way that it can be used as an expandable wireless device that extracts the data from legacy Modbus devices, wirelessly. This is a licensed feature. Typically, in a plant there are thousands of legacy wired Modbus devices and managing

(monitoring, viewing, accessing data) them is a mammoth task. To wirelessly enable this, you can use the FEWIO solution. This solution gives huge cost savings (no wiring, switches are required) and makes the data easily accessible. You can connect multiple Modbus devices to OneWireless network using the FDAP. The FDAP changes its role to FEWIO and extracts the data from Modbus (RTU/TCP) slave devices and converts it into the ISA100 environment. The legacy devices are connected to the FDAP using the RS-485 protocol or TCP/IP. The collected data in WDM can be accessed by SCADA or any other third-party applications. FDAP acting as a field router can only be converted to FEWIO. OWDOC-X256-en-323A 49 FEWIO solution The following figure shows a graphical overview of the FEWIO solution with FDAP Gen3. FIELD EXPANDABLE WIRELESS IO Fig. 21. FDAP FEWIO Solution OWDOC-X256-en-323A 50 Converting FDAP Router to FEWIO device To convert FDAP Router to FEWIO:

1. Ensure that you have the licensed version of WDM that includes FEWIO feature. Click Manage Licenses from the Menu bar. The Licensing window appears. 3. Select the FDAP router that needs to be converted as FEWIO from the section list. 4. Expand Device Management in the Property Panel from Manage Devices. Under Role Conversion, select the Change Role to FEWIO checkbox. 5. Click Apply. 6. The Confirm Field Expandable Wireless IO Change window appears, click OK. The FDAP router drops out from the network and rejoins as Field device with FEWIO role. Connecting Modbus TCP devices to FEWIO device FDAP Gen3 and FDAP Gen 3 Anchor The FDAP Gen3 and FDAP Gen3 Anchor router Ethernet cable should be connected to the Modbus Slave Ethernet port. The shield wire from cable must be secured on the chassis on the terminal power board. OWDOC-X256-en-323A 51 FDAP2 The FDAP2 router Ethernet cable should be connected to the Modbus Slave Ethernet port as shown in the following figure. FIELD EXPANDABLE WIRELESS IO Fig. 22. FDAP2 Connecting Modbus The FDAP router Ethernet cable should be connected through a Cisco Switch, if you have multiple TCP Modbus slaves as shown in the following figure. Fig. 23. FDAP with Cisco Switch- Multiple Modbus OWDOC-X256-en-323A 52

+Modbus SlaveCAT5E feed568B+Modbus Slave 2Modbus Slave 1Modbus Slave 0 Connecting Modbus RTU devices to FEWIO device FDAP Gen3 and FDAP Gen3 Anchor The FDAP Gen3 and FDAP Gen3 Anchor supports a two-wire RS-485 interface. A three-pin connector is available on the Power Board of the FDAP Gen3 and FDAP Gen3 Anchor when FDAP Gen3 and FDAP Gen3 Anchor top cover are opened as shown in the following figure. The Ethernet connectivity is applicable only for Modbus TCP, when FDAP Gen3 and FDAP Gen3 Anchor acts as a FEWIO device. B and A (Data+ and data-) are the two pins that must be connected to the slave RS-485 2-

wire connection as shown in the following figure 24 and figure 25. Fig. 24. FDAP Gen3 Connecting with Modbus Fig. 25. FDAP Gen3 Anchor Connecting with Modbus OWDOC-X256-en-323A 53 FIELD EXPANDABLE WIRELESS IO The Jumper is used to switch the connection between RS-485 and Ethernet. When the Jumper is placed in its relevant position as shown in the following figure, the connection towards RS-485 is terminated and Ethernet is configured. The removal of Jumper enables RS-485 connection and terminates Ethernet configuration effectively. Fig. 26. FDAP Gen3 Jumper connection Fig. 27. FDAP Gen3 Anchor Jumper connection OWDOC-X256-en-323A 54 FDAP2 The FDAP2 supports a two-wire RS-485 interface. A three-pin connector is available on the Power Board of the FDAP2 when the FDAP2 top cover is opened as shown in the following figure, V+ and V- are the two pins that must be connected to slave RS-485 two-

wire connection (DATA+ and DATA-) as shown in the following figure. Fig. 28. FDAP2 Connection with Modbus Configure FEWIO device in WDM To configure FEWIO device in WDM:

1. Make sure that the FEWIO DD file is loaded in WDM. FDAP as FWIO, FDAP Gen3 and FDAP Gen3 Anchor as FEWIO role has different DD files ATTENTION 2. Select the applicable FEWIO, which needs to be configured from the Selection Panel under Manage Devices. OWDOC-X256-en-323A 55

+Modbus Slave 0Modbus Slave 1Modbus Slave 2 FIELD EXPANDABLE WIRELESS IO 3. Expand Vendor Parameters in the Property Panel. 4. In the Modbus Interface list, click the required option. The following are the interface options available. Modbus RTU Modbus TCP Based on the connected Modbus devices, select the appropriate option. ATTENTION 5. Configure one of the following depending on the Modbus interface option that you have selected. If you have selected Modbus TCP Interface, configure the following under Modbus TCP Settings. FEWIO IP Addr: IP address that needs to be assigned to FEWIO and the IP address Subnet should be same as the IP address of slaves Subnet Mask: Subnet Mask OWDOC-X256-en-323A 56 Gateway: Gateway IP address Slave1 IP Addr: IP address of Slave1 Slave2 IP Addr: IP address of Slave2 Slave3 IP Addr: IP address of Slave3 Slave1 UnitID: Unit ID of Slave1 used for the Modbus TCP port Slave2 UnitID: Unit ID of Slave2 used for the Modbus TCP port Slave3 UnitID: Unit ID of Slave3 used for the Modbus TCP port If you have selected Modbus RTU Interface, configure the following under Modbus RTU Settings. Baud Rate: Select the baud rate used for the Modbus RTU serial port. Options include: 9600,19200, 38400, 57600, 11520. Parity: The parity used for the Modbus RTU serial port. Options include: Even and Odd. Stop Bits: Options include: 1 and 2. Byte Order: Select a byte order that matches the expected byte order of the Modbus client. Options include: Big Endian, Little Endian, Big Endian Bytes Swapped, and Little Endian Bytes Swapped. OWDOC-X256-en-323A 57 FIELD EXPANDABLE WIRELESS IO Configuring and viewing the Modbus Registers To configure the Modbus Registers:

1. Select the FEWIO device from the Selection Panel under Manage Devices. 2. Expand the FEWIO device and select Modbus Register Config. 3. Expand Register Configuration from the Property Panel. 4. Configure the following under each Register Config:

Slave Addr: Slave Address Register Addr: Register Address Function: Select the required function option from the dropdown list. Options include: Input Register, Holding Register, Coil and Discrete Registers. Data Type: Select the required data type option from the dropdown list. Options include: INT16, INT32, UINT16, UINT32, Float and Boolean. 5. Click Apply. To view the configured Modbus Registers:

1. Select Modbus Register Values from the Selection Panel. 2. Expand Register Values from the Property Panel. 3. Now, you can view the respective register values as shown in the following figure. The values shown for each register is the value read from the respective slave device registers as configured in the register configuration. OWDOC-X256-en-323A 58 Converting FEWIO device to FDAP Router To convert FEWIO to FDAP Router:

1. Select the FEWIO that needs to be converted as an FDAP router in the Selection Panel from Manage Devices. 2. Expand Device Management from the Property Panel. Under Role Conversion, select the Change Role to FDAP check box. OWDOC-X256-en-323A 59 FIELD EXPANDABLE WIRELESS IO BLE Options is only applicable to FDAP Gen3 and FDAP Gen3 Anchor ATTENTION 3. Click Apply. The device drops out from the network and rejoins as an FDAP router. Integrating with Experion The FEWIO device is natively integrated with Experion system. All parameter read and write, configuration support is provided in Experion for the FEWIO device through the ISA100 DD file. FEWIO comes as an uncommissioned ISA 100 device in Experion Control Builder, just like any other ISA100 field device. It is commissioned and configured like other ISA100 field devices. To configure the Modbus Registers of FEWIO:

1. Make sure that FEWIO DD file is loaded in Control Builder. FDAP as FWIO, FDAP Gen3, and FDAP Gen3 Anchor as FEWIO role has different DD files ATTENTION 2. Commission the FEWIO device in Control Builder. 3. Once commissioned, the FEWIO appears in Control builder as shown in the following figure. OWDOC-X256-en-323A 60 4. Double-click on the FEWIO that needs to be configured. The FEWIO-Parameters [Monitoring] window appears. 5. Go to Others tab and configure the parameters in the same way as configured in the WDM. OWDOC-X256-en-323A 61 FIELD EXPANDABLE WIRELESS IO 6. Click OK. 7. On the Monitoring-Assignment window, under the FEWIO, double-Click CH01_VENDOR_0. 8. The CH01_VENDOR_0-Parameters [Monitoring] window appears. 9. Go to Others tab and configure the parameters in the same way as they are configured in the WDM. OWDOC-X256-en-323A 62 10. Click OK. To view the configured Modbus Registers:

1. On the Monitoring-Assignment window, under the FEWIO, double-click CH02_VENDOR_0. OWDOC-X256-en-323A 63 FIELD EXPANDABLE WIRELESS IO 2. The CH02_VENDOR_0-Parameters [Monitoring] window appears. 3. Go to Other tab and view the configured parameters. OWDOC-X256-en-323A 64 The values shown for each register is the value read from the respective slave device registers as configured in the register configuration. OWDOC-X256-en-323A 65 FDAP MONITORING FDAP monitoring Overview about monitoring The status and performance of FDAPs operating in a wireless network can be monitored using the following options. The Monitoring tab in the OneWireless user interface enables you to monitor FDAPs that are commissioned in the network. The Alarms & 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. Verify connectivity using maps The OneWireless user interface enables you to create multiple locations and upload site map to the location. The devices can be positioned on the map to reflect the physical design and structure of a plant. The network topology map and connectivity can be visually inspected. 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 wireless mesh connectivity and FDAP connectivity in the OneWireless user interface. Fig. 29. Map view OWDOC-X256-en-323A 66 For more information about setting up a monitoring area and for location-specific monitoring, see the Wireless Device Manager Users Guide (OWDOC-X254-en). Monitor using Provisioning Handheld device The FDAP is authenticated using a Provisioning Handheld device. Once the FDAP is authenticated, it joins the network. A Provisioning Handheld device can be used to monitor the status of the authenticated FDAP, and Provisioning Handheld device displays status as Discover, Secure, Joined, or Not Joined. You can read and set various FDAP parameters through the Provisioning Handheld device. If the FDAP is unable to join the network, you can read the FDAP parameter data through the Provisioning Handheld device and troubleshoot. 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 period. For more information about monitoring device using events, see the Wireless Device Manager Users Guide (OWDOC-

X254-en). Monitor using reports 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:

Battery Life Device Health Overview Device Summary Device History Connection Summary Connection History Inventory Summary You can print the report and save the report in .csv format. For more information about reports, see the Wireless Device Manager Users Guide (OWDOC-X254-en). OWDOC-X256-en-323A 67 FDAP MAINTENANCE AND TROUBLESHOOTING FDAP maintenance and troubleshooting 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, see the Wireless Device Manager Users Guide (OWDOC-X254-en). Any maintenance required is limited only to the external enclosure surface, cable connections, antennas, and the firmware. A failed unit ATTENTION must be returned to Honeywell for maintenance, repair, or replacement. Remove an FDAP You can remove a failed FDAP from the network. Once the FDAP is removed it is unable to join the network until it is assigned a new provisioning key. For more information about the procedure to remove an FDAP, see the Wireless Device Manager Users Guide (OWDOC-

X254-en). Firmware upgrade FDAPs have only radio firmware and the radio firmware can be upgraded over-the-air. For more information about the procedure to upgrade a firmware for FDAP, see the Wireless Device Manager Users Guide (OWDOC-X254-en). Troubleshooting The 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 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:

Events Reports System logs Provisioning Handheld device 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, see the Wireless Device Manager Users Guide (OWDOC-X254-en). OWDOC-X256-en-323A 68 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, see the Wireless Device Manager Users Guide (OWDOC-X254-en). OWDOC-X256-en-323A 69 Appendix Technical Specifications FDAP Gen3 APPENDIX Attribute Specification Model Numbers FDAP 32 (Class 1 Div 2 / Zone 2) FDAP 3P(Class1 Div 2/ Zone2) Multiple ISA100 Wireless, WirelessHART Standards/Field Protocols Weight 2 kg (4.4 lbs.) Dimensions 466 x 290 x 45 mm (18.34 x 11.41 x 1.77 in) Power 24V DC, PoE Type -2 powered External Ports and 2 X external antenna ports for 2.4 GHz ISA100 Wireless and Connections WirelessHART field instruments 1 X grounding cable Internal Connections 1 X 10/100 Mbps auto-negotiation Ethernet port 1 X 3pin RS-485 port Environmental IP66, IP67, G3 corrosion resistance per ANSI/ISA-S71.04-1985 Ratings Operating Temperature

-40 to +70 C (IECEx)

-40 to +70 C (ATEX)

-40 to +70 C (CSA) Operating Humidity 0~95% non-condensing Transportation and 0~95% non-condensing Storage Humidity Mechanical Shock 5G Operational, 15 G Non-Operational Data Rates and Radio: 250 Kbps, DSSS/O-QPSK Modulations Wired: 10 / 100 Mbps Fast Ethernet OWDOC-X256-en-323A 70 Frequency Band Unlicensed ISM Band (2.4 2.483 GHz) and Operating Channels 13 DSSS channels for ISA100 Wireless and/or Wireless HART BLE: 40 FHSS channels Compliance Radio Approvals (ISA100) FCC Part 15.247 Subparts B and C Canada Industry Canada RSS247, Issue 2 RSS-Gen, Issue 5 ICES-003, Issue 6 European Union ETSI EN 300 328 V2.2.2(2019-07) EN 301 489-17 V3.2.2 EN 301 489-1 V2.2.3 EN61326-1, 2021 Radio Approvals (Bluetooth (NINA-B1 module)) FCC/CFR 47part 15 unlicensed modular transmitter approval Canada - IC RSS European Union ETSI RED CE Mark RED Directive 2014/53/EU EMC Directive 2004 / 108 / EC Hazardous Environment Ratings CSA: Class I, Division 2, Group A,B,C,D; T4 Nonincendive field wiring (NIFW) connection to external antenna Security 128-bit AES encryption Quality of Service Supported Transmit Power 18 dBm

(Maximum) Receive Sensitivity

-100 dBm @ 250 kbps

(Typical) OWDOC-X256-en-323A 71 Network Interface 10/100 Mbps Ethernet, auto-sensing Number of Access Point APPENDIX Supported ISA100 Wireless and WirelessHART Field Instruments 10 ISA100 Wireless or 8 WirelessHART Field Instruments at 0.5 second reporting rate 25 ISA100 Wireless or 25 WirelessHART Field Instruments at 1 second reporting rate 50 ISA100 Wireless or 50 WirelessHART Field Instruments at 2 seconds reporting rate 80 ISA100 Wireless Field Instruments at 5 seconds or 80 WirelessHART Field Instruments at 4 seconds reporting rate 100 ISA100 Wireless Field Instruments at 10 seconds or slower or 100 WirelessHART Field Instruments at 8 seconds or slower reporting rate Access Point as Router 5 ISA100 Wireless and 4 WirelessHART Field Instruments at 0.5 second reporting rate 12 ISA100 Wireless and 12 WirelessHART Field Instruments at 1 second reporting rate 25 ISA100 Wireless and 25 WirelessHART Field Instruments at 2 seconds reporting rate 40 ISA100 Wireless Field Instruments at 5 seconds or 50 WirelessHART Field Instruments at 4 seconds reporting rate 50 ISA100 Wireless Field Instruments at 10 seconds or slower or 50 WirelessHART Field Instruments at 8 seconds or slower reporting rate Number of 40 Enraf FlexLine Radar Gauges / WFI Supported Enraf FlexLine Radar Gauges / Wireless Field Interface (WFI) Maximum Number 4 Hops 6 Hops for Wireless Tank Gauging applications of Wireless Network Hops Between an OWDOC-X256-en-323A 72 Access Point and a Field Device Warranty 1 Year ECCN 5A002 ENC OWDOC-X256-en-323A 73 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT Federal Communications Commission (FCC) Statement FDAP complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions. 1. FDAP will not cause harmful interference. 2. FDAP must accept any interference received, including an interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. CAUTION:

Any changes or modifications not expressly approved by the party responsible for compliance could avoid the user's authority to operate this equipment. This equipment should be installed and operated with a minimum distance of 20 cm between the radiator and your body. OWDOC-X256-en-323A 74 Industry Canada (IC) Statement Compliance Statements: This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: 1) This device may not cause interference., 2) This device must accept any interference, including interference that may cause undesired operation of the device. Dclarations de conformit: Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes : (1) lappareil ne doit pas produire de brouillage, et (2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. Caution Statements:

User Information General Information This equipment complies with radio frequency exposure limits set forth by Industry Canada for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 cm between the device and the user or bystanders. Dclarations de mise en garde:

Cet quipement est conforme aux limites d'exposition aux radiofrquences dfines par Indstrie Canada pourun environment non contrl. Cet quipement doit tre install et utilis aven un minimum de 20 cm de distance dispositif et l'utilisateur ou des tiers. Tant que 2 conditions ci-dessus sont remplies, un autre test dmetteur ne sera pas ncessaire. Toutefois, lintgrateur OEM est toujours responsable de tester leur produit final pour toutes les exigences de conformit supplmentaires requises avec ce module install. OWDOC-X256-en-323A 75 FDAP Gen3 Anchor Attribute Specification Model Numbers FDAP32/3P (Class 1 Div 2 / Zone 2) Multiple ISA100 Wireless (IEC 62734) Standards/Field Protocols WirelessHART (IEC 62591) BLE (v5.1) Weight 2 kg (4.4 lbs.) Dimensions 466 x 290 x 45 mm (18.34 x 11.41 x 1.77 in) Power consumption 2.5 Watts@24VDC PoE: 3W External Ports and 2 X external antenna ports for 2.4 GHz ISA100 Wireless field Connections instruments, WirelessHART field instruments and RTLS 1 X grounding cable Internal Connections 1 X 10/100 Mbps auto-negotiation Ethernet port 1 X 3pin RS-485 port Environmental IP66, IP67, G3 corrosion resistance per ANSI/ISA-S71.04-1985 Ratings Operating Temperature

-40 to +70 C (IECEx, ATEX, CSA) Operating Humidity 0~95% non-condensing Transportation and 0~95% non-condensing Storage Humidity Mechanical Shock 5G Operational, 15 G Non-Operational Data Rates and Radio (ISA100): 250 Kbps, DSSS/O-QPSK Modulations Radio (RTLS): FHSS channel. Radio (BLE): 1Mbps, FHSS/FSK Wired: 10 / 100 Mbps Fast Ethernet Frequency Band Unlicensed ISM Band (2.4 2.483 GHz) and Operating Channels 13 DSSS channels for ISA100 Wireless and/or WirelessHART 40 FHSS Channels for RTLS 1 DSSS channel for RTLS OWDOC-X256-en-323A 77 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT Compliance Radio Approvals (ISA100/WirelessHART/RTLS) FCC Part 15.247 Subparts B and C Canada Industry Canada o RSS247, Issue 2 o RSS-Gen, Issue 5 o ICES-003, Issue 6 European Union ETSI o EN 300 328 V2.2.2(2019-07) o EN 301 489-17 V3.2.2 o EN 301 489-1 V2.2.3 o IEC61326-1, 2013 Radio Approvals (Bluetooth) FCC/CFR 47part 15 Subparts B and C Canada - IC RSS European Union ETSI RED CE Mark RED Directive 2014/53/EU EMC Directive 2004 / 108 / EC Hazardous Environment Ratings CSA: Class I, Division 2, Group A, B, C, D; T4 Non incendive field wiring (NIFW) connection to external antenna Security 128-bit AES encryption Transmit Power 17 dBm

(Maximum at Antenna Port) Range FDAP32R to FDAP32R: 500 meters (Instrumentation) FDAP32R to FDAP32R: 150 meters (RTLS) Receive Sensitivity

-95 dBm @ 250 kbps

(Typical) OWDOC-X256-en-323A 78 Network Interface 10/100 Mbps Ethernet, auto-sensing Maximum Number 6 Hops of Wireless Network Hops Between an Access Point and a Field Device/RTLS Tag Warranty 1 Year OWDOC-X256-en-323A 79 FDAP2 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT Attribute Specification Model Numbers FDAP1 (Class 1 Div 1/Zone 0) FDAP2 (Class 1 Div 2/Zone 2) Multiple ISA100 Wireless and WirelessHART Standards/Field Protocols Weight 3.86 kg (5.5 lbs) Dimensions 216 x 170 x 86 mm (8.47 x 6.73 x 3.37 in) Power 24 VDC +/- 10% at 2 Watts 90 264 VAC, 50/60 Hz External Ports and 2 X external antenna ports for 2.4 GHz ISA100 Wireless field Connections instruments Internal 1 X 10/100 Mbps auto negotiation Ethernet port 1 X shielded Connections power cable 1 X grounding cable Environmental IP66, G3 Corrosion resistance per ANSI/ISA-S71.04-1985, NEMA Ratings Type 4X (FM only) Operating Temperature FDAP1: -40 to +70 C FDAP2: -40 to +60 C Transportation and

-40 to +85 C Storage Temperature Operating Humidity 0~100% non-condensing Transportation and 0~100% non-condensing Storage Humidity Mechanical Shock 4G Data Rates and Radio: 250 Kbps, DSSS/ O-QPSK Wire: 10/100 Mbps Fast Modulations Ethernet Frequency Band Unlicensed ISM Band (2.4 2.483 GHz) 15 DSSS channels for and Operating ISA100 Wireless Channels OWDOC-X256-en-323A 80 Compliance Radio Approvals FCC Part 15.247 Subparts B and C Canada Industry Canada Australia ACMA AS NZS 4771-2000 Method RSS-247, Issue 2 & RSS-Gen, Issue 5 ICES-003, Issue 4 European Union ETSI EN 300 328 V1.7.1 EN 301 893 V1.4.1 EN 301 489-17 V1.2.1 EN 301 489-1 V1.6.1 IEC61326-1, 2005 CE Mark R&TTE Directive 1999/5/EC EMC Directive 2004/108/EC LVD Directive 73/23/EEC ATEX Directive 94/9/EC Hazardous Environment Ratings FDAP1 Model:

IECEx: Ex ia IIB T4 FM: Class I, Division 1 Group C, D / Zone 0 Group IIB T4 FDAP2 Model:

FM: Class I, Division 2 Group A, B, C, D / Zone 2 Group IIC T4 Security 128-bit AES encryption Quality of Service Supported Transmit Power DSSS: 18 dBm

(maximum) Receive Sensitivity DSSS (2.4 GHz): -95 dBm @ 250 kbps

(Typical) Network Interface 10/100 Mbps Ethernet, autosensing Number of Supported ISA100 Wireless and WirelessHART Field Instruments Access Point 10 ISA100 Wireless or 8 WirelessHART Field Instruments at 0.5 second reporting rate 25 ISA100 Wireless or 25 WirelessHART Field Instruments at 1 second reporting rate 50 ISA100 Wireless or 50 WirelessHART Field Instruments at 2 seconds reporting rate 80 ISA100 Wireless Field Instruments at 5 seconds or 80 WirelessHART Field Instruments at 4 seconds reporting rate OWDOC-X256-en-323A 81 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT 100 ISA100 Wireless Field Instruments at 10 seconds or slower or 100 WirelessHART Field Instruments at 8 seconds or slower reporting rate Access Point as Router 5 ISA100 Wireless and 4 WirelessHART Field Instruments at 0.5 second reporting rate 12 ISA100 Wireless and 12 WirelessHART Field Instruments at 1 second reporting rate 25 ISA100 Wireless and 25 WirelessHART Field Instruments at 2 seconds reporting rate 40 ISA100 Wireless Field Instruments at 5 seconds or 50 WirelessHART Field Instruments at 4 seconds reporting rate 50 ISA100 Wireless Field Instruments at 10 seconds or slower or 50 WirelessHART Field Instruments at 8 seconds or slower reporting rate Number of FDAP as an access point (connected to a high speed backbone1):

Supported Enraf 13 Enraf FlexLine Radar Gauges FlexLine Radar Gauges FDAP as a router (routing data to another field device):

10 Honeywell Enraf FlexLine Radar Gauges with 1 second publication rate with input only channels 5 devices with 1 second publication rate with both input and output channels Number of FDAP as an access point (connected to a high speed backbone1):

Supported SKF WVT Field Devices 15 Wireless Vibration Transmitter (WVT) Field Devices FDAP as a router (routing data to another field device):

Number of Wireless Vibration Transmitter (WVT) Field Devices under FDAP as a router is 8 Maximum Number 4 hops of Wireless Network Hops Between an Access Point and a Field Device Warranty 1 year ECCN 5A002 ENC OWDOC-X256-en-323A 82 Dimension Drawing FDAP Gen3 and FDAP Gen3 Anchor Fig. 30. FDAP Gen3 and FDAP Gen3 Anchor WITH LIGHTENING SURGE ARRESTOR Fig. 31. FDAP Gen3 and FDAP Gen3 Anchor WITHOUT LIGHTENING SURGE ARRESTOR OWDOC-X256-en-323A 83 FDAP2 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT Fig. 32. FDAP2 OWDOC-X256-en-323A 84 IS Control Drawing FDAP Gen3 and FDAP Gen3 Anchor OWDOC-X256-en-323A 85 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT OWDOC-X256-en-323A 86 OWDOC-X256-en-323A 87 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT OWDOC-X256-en-323A 88 OWDOC-X256-en-323A 89 FDAP2 (51202683) FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT OWDOC-X256-en-323A 90 OWDOC-X256-en-323A 91 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT Label Drawing FDAP Gen3 The labels shown are for reference purposes only. OWDOC-X256-en-323A 92 FDAP3x with 1 Anchor Radio and GXRM Radio FDAP31 Gen3 Anchor FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT FDAP32 Gen3 Anchor OWDOC-X256-en-323A 94 FDAP3P Gen3 Anchor OWDOC-X256-en-323A 95 FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT FDAP Gen3 with 2 Anchor Radios FDAP31 Anchor2 FDAP32 Anchor2 OWDOC-X256-en-323A 96 FDAP3P Anchor2 OWDOC-X256-en-323A 97 FDAP2 The labels shown are for reference purposes only. FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT OWDOC-X256-en-323A 102 Notices Trademarks Other trademarks Third-party licenses Experion, PlantScape, SafeBrowse, TotalPlant, and TDC 3000 are registered trademarks of Honeywell International, Inc. ControlEdge is a trademark of Honeywell International, Inc. OneWireless is a trademark of Honeywell International, Inc. Matrikon and MatrikonOPC are trademarks of Matrikon International. Matrikon International is a business unit of Honeywell International, Inc. Movilizer is a registered trademark of Movilizer GmbH. Movilizer GmbH is a business unit of Honeywell International, Inc. Microsoft and SQL Server are either registered trademarks 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. 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. Documentation feedback You can find the most up-to-date documents on the Honeywell Process Solutions support website at:

https://process.honeywell.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 Honeywell Process Solutions Customer Contact Center (CCC) or Honeywell Technical Assistance Center (TAC). OWDOC-X256-en-323A 103 How to report a security vulnerability NOTICES For the purpose of submission, a security vulnerability is defined as a software defect or weakness that can be exploited to reduce the operational 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 Process Solutions Customer Contact Center (CCC) or Honeywell Technical Assistance Center (TAC). For support, contact your local Honeywell Process Solutions Customer Contact Center

(CCC). To find your local CCC visit the website, https://process.honeywell.com/us/en/contact-us. Honeywell holds technical training classes that are taught by process control systems experts. For more information about these classes, contact your Honeywell representative, or see http://www.automationcollege.com. Support Training classes OWDOC-X256-en-323A 104 Honeywell Process Solutions 1250 W Sam Houston Pkwy S #150, Houston, TX 77042 Honeywell House, Skimped Hill Lane Bracknell, Berkshire, RG12 1EB Building #1, 555 Huanke Road, Zhangjiang Hi-Tech Park, Pudong New Area, Shanghai, China 201203 https://process.honeywell.com OWDOC-X256-en-323A June 2022 2022 Honeywell International Srl

Ex ia, CLL Div 4 GL L'Zn 0, Ex ia IB; T4 Ge us TYPE 4 1480004 1: S7sw-swso094 Contalne FCC. 1D: XPYNINABI Contains 10: @SO6ANNABI Model NINA-Bt _ BLE MAG: kxaxaxaxae FELD DEVICE ACCESS PONT GENS ANCHORZ Fort Washington, PA 2094, USA co ASSEMBLED IN MEXICO ae si respite BG Ex ec fie] IC_T4 Ge Part No: GHGS7E+008 ECEx CSA 210025x Sart. Nos Ex ec fied IC T4 Go Input 12V - 2evDc, 24 POE 37V - 87V0C, 25m, CL Div. 2 Gp. ABCD: T4 stags 4000! a7u-e Nonincendive Fld Wiring (IFW) 1Pe6/67 MeD: MW/YYYY Instatation per Dwg S018ss25 ih Part 16 of FCC Rules and Regulations Operation Is subject to the device may not cause harms ierforence and (2), Two Device accept any inerlerence received, Icdng inltierence that may cause undested on. opera FOC 1 : 8575180096 1: S7sw-swso0s4 Contalse FOC 1D: XPYNIVABI Contains 1: OS06ANINABI Model NASI Ethernet MAC: 00-40-26-ex-xx-xxax BLE MAC: X-xx-xx KXHXAX ok FIELD DEVICE ACCESS POINT GENS PLUS. ANCHOR2 Fert Wasigln. PA 9004, USA oO uaa CSANe 21ATEXSIZ7X Modet FOAPSP Part No: S1B67S1007 Eaee'csa Sibozex Ser, No: Ex ec el BC T4 Ge Lb Diu, 2 Gp, ABCD: Ta Temp: 400 TO sore Norincendive Plaid Wiring (rm MED: MMIYYYY Instalation per Dwg 60165525 This device compos with Part 1 of FCC Rules and Fegutatons.Operation is subject to, the folowing condone: () This device may not cause harml iterloronce and (2) The Device mast aooept any Inertarence received, lncidng tnerference that may cause undested peraion FOC 1 : $5751460006 vo: S75w-s14so004 Containe FOC. 1D: XPYNINABI Contains I: OS96A-NINABI Model NINA-S1 Ethemnot MAC: 00-40-04-xx-ex-xxax BLE MAC: Xe-xX-XE KX-EX-AX Label Placement

Model Differences Summary (add extra details if applicable) Model name Rated voltage Rated power Mains transformer Sensor Output Same PCB layout?

Same circuit diagram /

Schematic

character

(voltage, frequency, wavelength) Heating element Motor name, voltage and power Same programmable electrical medical system

/ software?

Intended use Same constructi on, shape of enclosure

Yes FDAP31 24VDC 1W Yes Yes Yes NA Same NA NA Yes FDAP32 24VDC 2.2W Yes Yes Yes NA Same NA NA Yes Yes FDAP3P 2.3W Yes Yes Yes NA Same NA NA Yes Yes 60V Max POE N/A is not applicable All the Internal circuitry are same for the three models, FDAP31 is used in Zone1 Hazardous Location, So the interface like RS485 cannot be used because it can create fire hazard if the energy is not limited. So the power consumption is less on FDAP32. FDAP3P is powered through POE, because of POE convertor the power consumption is slightly different. Device Access Point used in Zone 1 Location Device Access Point used in Zone 2 Location Device Access Point with provision POE Powering

& Zone2 Location for AC/DC