Honeywell used a combination of advanced

Honeywell used a combination of advanced
Process Solutions
Technical Information
OneWireless Field Device Access Point
Specification Release 220
OW03-650-220, September 2013
OneWireless Network Overview
Honeywell OneWireless™ Network is an industrial wireless mesh
network capable of simultaneously supporting ISA100 Wireless
field instruments (transmitters, actuators, etc.), Wi-Fi devices and
Ethernet/IP-based devices. The network is composed of the
following interconnected elements: Honeywell OneWireless
Wireless Device Manager (WDM), Honeywell OneWireless Field
®
®
Device Access Point (FDAP), Cisco Aironet 1552S Access
Point, and Cisco Wireless Controller. The WDM manages the
ISA100 Wireless™ field instrument network, including ISA100
Wireless field instruments, FDAPs, Cisco Aironet1552S Access
®
Points with embedded ISA100 Wireless radio, and HART
devices connected wirelessly through the Honeywell
OneWireless Adapter.
The FDAP is an industrial meshing access point providing secure
and reliable wireless coverage for ISA100 Wireless field
instruments only. It uses advanced spatial diversity techniques to
mitigate multipath induced communication problems found in
typical industrial environments and thereby improve
communication reliability and increase effective range. The FDAP
self-discovers and forms an ISA100 Wireless-based wireless
mesh network that routes data to and from wireless field
instruments and process control applications. The Cisco 1552S is
an industrial meshing access point that provides secure and
reliable wireless coverage for IEEE 802.11b/g/n wireless devices
and ISA100 Wireless field instruments. Cisco access points self-
Product Overview
The FDAP is an industrial meshing access point for ISA100
Wireless field instruments. Once implemented in a plant, FDAP
self-discovers other neighboring ISA100 Wireless devices (e.g.,
Cisco access points, other FDAPs, and ISA100 Wireless field
Instruments) to form a reliable and secure ISA100 Wirelessbased wireless mesh network. The device can support all ISA100
Wireless field instruments including wired HART instruments
connected to the OneWireless Adapter.
discover and form a high-speed IEEE 802.11-based wireless
The FDAP uses an advanced spatial diversity scheme combined
mesh network that routes data to and from wireless clients (e.g.,
with Honeywell’s intelligent wireless algorithm to significantly
Wi-Fi clients, wired Ethernet devices and wireless field
improve the communication reliability in extreme multi-path
instruments) and process control applications. The Cisco
environments and extend the wireless coverage for ISA100
Wireless Controller provides real-time communications between
Wireless field instruments by a factor of 1.5 compared to ISA100
the 1552S access points access points in order to simplify the
Wireless routing devices without diversity.
deployment and operation of wireless networks. The controller
delivers centralized security policies, wireless intrusion
prevention system (wIPS) capabilities, award-winning RF
management, and quality of service (QoS) for process data,
voice and video.
OneWireless Field Device Access Point Specification
2
Key Benefits
Robust Embedded Security for ISA100 Communications
• Provides superior performance in multi-path and non-line-ofsight environments.
Security is a primary concern for the process automation
• Enables using wireless field instruments for applications
requiring fast reporting rates (less than 10 seconds) and short
latency (less than 250 ms).
requires all process data to be AES-128-bit encrypted. The data
• Optimizes the battery life of a wireless field instrument.
community. To mitigate security threats, ISA100 Wireless
is encrypted and decrypted at the field I/O device and WDM level
to provide end-to-end security for the process data.
• Enables wireless field devices in areas where Wi-Fi radios are
not allowed.
In addition to data encryption, the ISA100 Wireless standard
• Reduces the number of ISA100 Wireless routing devices
needed for optimal wireless coverage of ISA100 Wireless field
instruments.
joining the network. The ISA100 Wireless standard supports two
• Helps reduce operating costs (fewer lined powered routing
devices and optimized batteries for wireless field instruments).
layer of security as it requires users to be physically next to the
Hardware
supports both authentication key distribution methods.
The FDAP is a 24 VDC or 120/230 VAC powered field device
featuring an ISA100 Wireless radio with spatial diversity and one
Ethernet input for optional connection to a wired network or a
wireless access point. Users terminate the power cable and
Ethernet cable inside the unit, eliminating the need for a separate
enclosure or junction box for termination in hazardous
environments. The FDAP comes in two models: one model
certified for Div 2/Zone 2 areas and a second certified for Div
1/Zone 0 areas.
requires each wireless field device to be authenticated before
types of authentication key distribution: over-the-air and infrared.
The infrared authentication key distribution method adds another
wireless field instrument to add it to the network. The FDAP
The authentication keys are managed by the WDM. A handheld
device is used when opting for the infrared authentication key
distribution. The handheld uploads the authentication keys from
the WDM and downloads keys to field devices using short-range
infrared communication. The FDAP features a conveniently
located IR port for use in device commissioning. Once a key is
deployed to an ISA100 Wireless field device, including the FDAP,
it is validated by the WDM before the ISA100 Wireless field
device can join the ISA100 Wireless network. Key deployment is
a one-time activity which means that devices can re-join the
Access Point and Field Router
network after power-down or other service interruptions without
The FDAP can be used as an access point and as a field router.
re-keying the device.
When the FDAP is connected to a wired backbone such as a
local area network (LAN) via an Ethernet port, the FDAP acts as
an access point and will route the ISA100 Wireless traffic via the
Ethernet connection to the WDM. When the FDAP is installed as
a router in the field but not connected to a wired backbone, the
FDAP acts a repeater and will route the ISA100 Wireless traffic to
another routing field device.
Self-Configuring and Self-Healing Mesh
The FDAP self-discovers other neighboring ISA100 Wireless
devices to form a reliable and secure ISA100 Wireless-based
wireless mesh network. Honeywell’s intelligent wireless routing
algorithm enables the FDAP to identify the best route to send
data to and from wireless field instruments. This algorithm
optimizes the field instrument mesh network when FDAPs are
added to or removed from the network.
The FDAP radio operates in the license-free 2.4 GHz ISM band
using the ISA100 Wireless radio which is a standard-based IEEE
802.15.4 radio.
Remote and Local Configuration
FDAPs require little configuration. All configuration parameters
are easily accessible from the WDM which centralizes all key
functions required to manage the field instrument network and
wireless field devices.
Lightning Surge Arrestors and Antenna Selection
FDAPs come with the choice of integral and remote surge
arrestors as well as integral and remote antennas. The antenna
selection includes integrated omni-directional antennas and
remote-mounted, high-gain, directional and omni-directional
antennas. The FDAP supports a variety of high and low gain
directional antennas to provide flexibility in installation and
maximum performance of the wireless system.
OneWireless Field Device Access Point Specification
3
Hardware Specifications
Model Numbers
FDAP1 (Class 1 Div 1/Zone 0)
FDAP2 (Class 1 Div 2/Zone 2)
Multiple Standards/Field Protocols
ISA100 Wireless
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 5 Watts
90 – 264 VAC, 50/60 Hz
External Ports and Connections
2 X external antenna ports for 2.4 GHz ISA100 Wireless field instruments
Internal Connections
1 X 10/100 Mbps auto negotiation Ethernet port
1 X shielded power cable
1 X grounding cable
Environmental Ratings
IP54, NEMA Type 4X, G3 Corrosion resistance per ANSI/ISA-S71.041985
Operating Temperature
-40 to +75 °C
Transportation and Storage Temperature
-40 to +85 °C
Operating Humidity
0~100% non-condensing
Transportation and Storage Humidity
0~100% non-condensing
Mechanical Shock
4G
Data Rates and Modulations
Radio: 250 Kbps, DSSS/ O-QPSK
Wire: 10/100 Mbps Fast Ethernet
Frequency Band and
Unlicensed ISM Band (2.4 – 2.483 GHz)
Operating Channels
13 DSSS channels for ISA100 Wireless
Compliance
Radio Approvals
FCC Part 15.247 Subparts B and C
Canada – Industry Canada
Australia – ACMA
AS NZS 4771-2000 Method RSS-210, Issue 7
RSS-Gen, Issue 2
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
OneWireless Field Device Access Point Specification
4
Hazardous Environment Ratings
FDAP1 Model:
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
ATEX: II 3G Ex nA [nL] IIC T4
Security
128-bit AES encryption
Quality of Service
Supported
Transmit Power
DSSS: 18 dBm
(maximum)
Receive Sensitivity (Typical)
DSSS (2.4 GHz): -95 dBm @ 250 kbps
Network Interface
10/100 Mbps Ethernet, autosensing
Number of Supported Honeywell OneWireless XYR™
6000 Field Instruments
FDAP as an access point (connected to a high speed backbone ):
1
18 ISA100 Wireless Field Instruments at 1 second reporting rate
60 ISA100 Wireless Field Instruments at 5 seconds or greater reporting
rate
FDAP as a router (routing data to another ISA100 device):
10 ISA100 Wireless Field Instruments at 1 second reporting rate
20 ISA100 Wireless Field Instruments at 5 seconds or more reporting rate
Number of Supported Enraf FlexLine Radar Gauges
1
FDAP as an access point (connected to a high speed backbone ):
13 Enraf FlexLine Radar Gauges
FDAP as a router (routing data to another ISA100 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 Supported SKF WVT Field Devices
1
FDAP as an access point (connected to a high speed backbone ):
15 Wireless Vibration Transmitter (WVT) Field Devices
FDAP as a router (routing data to another ISA100 device):
10 Wireless Vibration Transmitter (WVT) Field Devices
Maximum Number of Wireless Network Hops
Between an Access Point and a Field Device
4 hops
Warranty
1 year
ECCN
5A002 ENC
OneWireless Field Device Access Point Specification
Technical Drawing
.
5
OneWireless Field Device Access Point Specification
Model Selection Guide
6
OneWireless Field Device Access Point Specification
1
7
Field Instruments with Input channels only
XYR™ and OneWireless™ are trademarks of Honeywell International Inc. All other products and brand names shown are trademarks
of their respective owners.
While this information is presented in good faith and believed to be accurate, Honeywell disclaims the implied warranties of
merchantability and fitness for a particular 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 indirect, special or consequential damages. The information
and specifications in this document are subject to change without notice.
This document is published for the sole usage of Honeywell Process Solutions’ customers and prospective customers.
For More Information
To learn more about Honeywell’s OneWireless
solutions, visit our website
www.honeywellprocess.com or contact
your Honeywell account manager.
Honeywell Process Solutions
Honeywell
1250 West Sam Houston Parkway South
Houston, TX 77042
Honeywell Control Systems Ltd
Honeywell House Skimped Hill Lane Bracknell
RG12 1EB
Shanghai City Centre, 100 Junyi Road
Shanghai, China 20051
www.honeywellprocess.com
OW03-650-220
September 2013
© 2013 Honeywell International Inc.
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