advertisement
Emerson ™ Wireless 1410 Gateway
Reference Manual
00809-0200-4410, Rev BC
July 2017
Reference Manual
00809-0200-4410, Rev BC
Contents
July 2017
Contents
Section 1: Introduction
Section 2: Initial Connection
Section 3: Mounting and Connection
Section 4: Software Setup
iii Contents
Contents
July 2017 iv
Reference Manual
00809-0200-4410, Rev BC
Section 5: Host Integration
Section 6: Troubleshooting
Section 7: Glossary
Appendix A: Specifications and Reference Data
Contents
Reference Manual
00809-0200-4410, Rev BC
Contents
July 2017
Appendix B: Product Certifications
Contents v
Contents
July 2017
Reference Manual
00809-0200-4410, Rev BC vi
Contents
Reference Manual
00809-0200-4410, Rev BC
Emerson ™ Wireless Gateway
Title Page
July 2017
NOTICE
Read this manual before working with the product. For personal and system safety, and for optimum product performance, make sure you thoroughly understand the contents before installing, using, or maintaining this product.
Within the United States, Emerson has two toll-free assistance numbers:
Global Service Center
Software and Integration Support
1-800-833-8314 (United States)
+63-2-702-1111 (International)
Customer Central
Technical support, quoting, and order-related questions.
1-800-999-9307 (7:00 am to 7:00 pm CST)
North American Response Center
Equipment service needs.
1-800-654-7768 (24 hours—includes Canada)
Outside of the United States, contact your local Emerson representative.
The products described in this document are NOT designed for nuclear-qualified applications. Using non-nuclear qualified products in applications that require nuclear-qualified hardware or products may cause inaccurate readings.
For information on Rosemount ™ nuclear-qualified products, contact your local Emerson Sales
Representative.
Title Page vii
Title Page
July 2017
Reference Manual
00809-0200-4410, Rev BC viii Title Page
Reference Manual
00809-0200-4410, Rev BC
Section 1 Introduction
Introduction
July 2017
The Emerson ™ Wireless 1410 Gateway connects Wireless HART ® self-organizing networks with host systems and data applications. Modbus ® communications over RS-485 or Ethernet provide universal integration and system interoperability. The optional OPC or EtherNet/IP ™ functionality from the
Gateway offers a means to connect to newer systems and applications while providing a richer set of data.
The Gateway provides industry leading security, scalability, and data reliability. Layered security ensures that the network stays protected. Additional devices can be added at any time. There is no need to configure communication paths because the Gateway manages the network automatically. This feature also ensures that Wireless HART field devices have the most reliable path to send data.
What is included?
The box containing the Gateway will contain several items essential to the complete installation and operation of the Gateway.
Gateway
Quick Start Guide
Software pack, 2 disk set
Informational side label for IP address
Basic antenna (if no remote antenna is required)
Terminal block (black)
If an optional remote antenna has been ordered, it will be in a separate box containing:
Remote mount antenna
Mounting hardware
Lightning arrestor
Cable (50 or 25 ft. [15,2 or 7,62 m] in length)
Coaxial sealant tape
Right angle SMA to N-type adapter cable
Introduction 1
2
Introduction
July 2017
1.1
1.2
Reference Manual
00809-0200-4410, Rev BC
Section outline
This manual will help to install, configure, operate, and maintain the Gateway.
This section introduces the product and describes what components may be found in the box. It also includes details for services and support as well as return and disposal of the product.
This section describes how to connect to the Gateway for the first time and what settings should be configured before placing it on a live control network. It is important to note that some Gateways are used in stand-alone applications and do not reside on a network. In these cases, it is still important to configure the items outlined in this section.
Section 3: Mounting and Connection
This section describes how to properly mount the Gateway and make electrical connections, including electrical wiring, grounding, and host system connections. This section also describes how to mount the optional remote antenna.
This section describes the installation and setup of the optional software included with the Wireless
Gateway. This software will aid in secure host integration as well as wireless field device configuration.
This section describes how to connect the Gateway to a host system and integrate data gathered from the field device network. It covers network architectures, security, and data mapping.
This section provides troubleshooting tips as well as information to contact technical support over the phone or through email.
The glossary defines terms used throughout this manual or that appear in the web interface of the
Wireless Gateway.
Appendix A: Specifications and Reference Data
and Appendix B: Product Certifications
The appendices provide additional and more specific information on a variety of subjects including
Product Specifications and Product Certifications.
Product recycling/disposal
Recycling of equipment and packaging should be taken into consideration and disposed of in accordance with local and national legislation/regulations.
Introduction
Reference Manual
00809-0200-4410, Rev BC
Section 2 Initial Connection
Initial Connection
July 2017
2.1
Failure to follow these installation guidelines could result in death or serious injury.
Only qualified personnel should perform the installation.
Explosions could result in death or serious injury.
Verify the operating atmosphere of the gateway is consistent with the appropriate hazardous locations certifications.
Do not make or break connections to the Emerson ™ 1410 Wireless Gateway (Gateway) while circuits are live unless the area is know to be non-hazardous.
Potential electrostatic charging hazard. Enclosure is a polymer, use care when handling or cleaning.
Electrical shock could cause death or serious injury.
Use extreme caution when making contact with the leads and terminals
This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions:
This device may not cause harmful interference.
This device must accept any interference received, including interference that may cause undesired operation.
This device must be installed to ensure a minimum antenna separation distance of 20 cm from all persons.
Overview
This section describes how to connect to the Gateway for the first time and what settings should be configured before placing it on a live control network. It is important to note that some Gateways are used in stand-alone applications and do not reside on a network. In these cases, it is still important to configure the items outlined in this section.
Before the Gateway can be permanently mounted and connected to a live control network, it needs to be configured with an IP address. This is done by forming a private network between the Gateway and a
PC/laptop. The following items are required to complete this section:
Gateway
PC/laptop
Ethernet Cable
24 VDC (nominal) power supply
3 Initial Connection
4
Initial Connection
July 2017
2.2
2.3
2.3.1
Reference Manual
00809-0200-4410, Rev BC
System requirements
The following requirements apply to the PC/laptop used to configure the Gateway. Additional requirements may apply if using the Security Setup Utility or AMS Wireless Configurator. See
on
Web browser applications
Microsoft ® Internet Explorer ® 6.0–10.0
Ethernet
10/100 base-TX Ethernet communication protocol
Initial connection and configuration
Prepare PC/laptop
The PC/laptop will need to be configured to form a private network before communicating to the
Gateway. The network settings can be found in the control panel of the PC/laptop running a Microsoft platform based operating system. To configure these settings:
1. Find and open the Control Panel (generally found from the Start Menu).
2. Open Network Connections .
3. Select Local Area Connection .
4. Right click the mouse and select Properties .
5. Select Internet Protocol (TCP/IP) , then the Properties button.
6. From the General tab, select Use the following IP address button.
7. Set the IP Address to 192.168.1.12
and select the Tab button.
8. Select OK to close the Internet Protocol (TCP/IP) window.
9. Select Close on the Local Area Connection window.
Internet proxies will need to be disabled through the PC/laptop’s default internet browser. Disable the proxies with the following procedure:
1. Find and open the default internet browser.
2. Find the Tools menu and select Internet Options .
3. From the Connections tab, select the LAN Settings button.
4. Under Proxy Server, the boxes for Automatically Detect Settings and Use a proxy server for your LAN should be unchecked.
5. Select OK to close the Local Area Network (LAN) Settings window.
6. Select OK to close the Internet Options window.
The PC/laptop is now set up to form a private network and to communicate with the Gateway.
Note
Connecting to the Gateway's secondary Ethernet port will require different network settings. See
Table 2-1 for additional network settings.
Initial Connection
Reference Manual
00809-0200-4410, Rev BC
2.3.2
Initial Connection
July 2017
Table 2-1. Default IP Addresses
Ethernet 1
Ethernet 2
Gateway
192.168.1.10
192.168.2.10
PC/laptop
192.168.1.12
192.168.2.12
Subnet
255.255.255.0
255.255.255.0
Connections and power
Physically connect the PC/laptop to the Gateway with an Ethernet cable by connecting one end to the
Ethernet port on the back of the PC/laptop. Connect the other end to the Ethernet 1 port on the
Gateway. “Configure the Gateway” on page 6 shows the standard terminal block diagram. Once the
Gateway and PC/laptop are connected, wire a 24 VDC (nominal) power supply with a capacity of at least
250 mA to the Gateway power input terminals.
Figure 2-1. Wireless Gateway Housing Diagram
A
Power
Reset
B
C
D
E
G H
+ S A B
F
A. DIN rail clip
B. SMA connector
C. Power and Reset indicator lights. During normal operation the power indicator will be green. During a reset the reset light will turn red. The reset switch should not be enabled during normal operation.
D. Ethernet port 2. This secondary port must be enabled when ordering to access the device. When this port is activated, the factory IP address is 192.168.2.10.
E. Ethernet port 1. Use for standard communication to the webserver or other protocols enabled on the gateway. The factory
IP address is 192.168.1.10. See
F. Five screw terminal block.
G. 24 VDC (nominal) power input
H. Serial Modbus ®
Initial Connection 5
6
Initial Connection
July 2017
2.3.3
Reference Manual
00809-0200-4410, Rev BC
Configure the Gateway
It is now possible to log into the Gateway for the first time and begin configuration for placement on a live control network. The following items need to be configured:
Security Passwords
Time Settings
TCP/IP Network Settings
Use the following procedure to log in to the Gateway:
1. Open a standard web browser.
2. Enter https://192.168.1.10
in the address bar.
3. Continue though the security message.
4. Enter admin for User Name.
5. Enter default for the Password.
The web browser will now be directed to the Gateway’s default home page. There is a navigation menu located on the left hand side with four main areas.
Diagnostics: View status of communications, client server parameters, and more
Monitor: Screens created by the user to view data from field devices
Explorer: Basic view of values from field devices
Setup: Configure the Gateway for operations, security, and host system integration
Security passwords
There are four role-based user accounts for the Gateway with varying levels of access.
below describes this access.
Table 2-2. Role Based Access User Accounts
Role User name Web interface access
Executive
Operator
Maintenance
Administrator exec oper maint admin
Read-only access
Read-only access
Configure HART ® device settings
Configure Modbus communications
Configure Modbus register mapping
Configure OPC browse tree
Configure Active Advertising
Includes all maintenance privileges
Configure Ethernet network settings
Configure Wireless HART network settings
Set passwords
Set time settings
Set home page options
Configure custom point pages
Restart applications
Each of the initial passwords for the user accounts is default. It is recommended, for security purposes, that these passwords are changed. The administrator password should be appropriately noted when changed. If it is lost, do not return the Gateway to the factory, see
“Resetting to factory defaults” on page 11 .
Initial Connection
Reference Manual
00809-0200-4410, Rev BC
Initial Connection
July 2017
To change the User Accounts Passwords:
1. Navigate to System Settings>Users>User accounts .
2. Set the new password for each role based user account, and confirm.
3. Select Submit .
Note
It is suggested that the default security settings in System Settings>Users>User Options be changed to the local IT best practices or the “Normal” setting after initial login. Strong or custom settings are available for more robust passwords. For more information on this screen and others, see the User Interface
Terminology Guide .
Antivirus
Antivirus and other software tools are not included in the Gateway firmware. These software tools should be installed on any machine connected to the Gateway. Emerson bundles the latest software patches into our standard Gateway firmware updates. These software patches are not anti-malware or anti-virus tools in any sense of the word, but do provide the latest in security protection.
Password complexity
The browser front-end of the Gateway supports many customizable password rules ( System Settings>Users>User Options ). All of the following rules are customizable:
Minimum overall password length
Minimum lowercase character count
Minimum uppercase character count
Minimum digit count
Minimum symbol count
Idle session timeout time
Maximum session lifetime to force a user to re-enter their password
Minimum password lifetime to prevent a user from changing their password too often
Maximum password lifetime to periodically force a user to change their password.
Password failure limit at which point the account is locked and the user must wait for a specified period of time prior to additional attempts to enter their password
Password failure lock to lock an account after a specified number of incorrect passwords
Require a wait period after the specified number of incorrect passwords have been entered
Password history depth to limit reuse of passwords
Logging
The Gateway monitors many security events automatically. A complete list of events can be viewed from the Log Settings ( System Settings>Users>Logging ) area in the Gateway interface. The Gateway also supports the optional use of a Syslog server. This provides significant flexibility and allows the user to determine how log messages are handled and how long logs are kept. It is possible for the user to configure the Syslog server to issue automated alerts for various messages.
Initial Connection 7
8
Initial Connection
July 2017
Reference Manual
00809-0200-4410, Rev BC
Time settings
The Gateway is the timekeeper for the Wireless HART network, so it is imperative that the Gateway’s time is accurate for timestamp data to be meaningful. Time settings can be found by navigating to System Settings>Gateway>Time
as shown in Figure 2-2 on page 8 .
Gateway time settings and time stamps are stored internally as UTC time. The appropriate web browser being used displays the time as per the local browser settings.
There are three ways to set the Gateway time:
1. Network Time Protocol (recommended)
This option uses a Network Time Protocol (NTP) server to slowly adjust the Gateway’s time in order to match the time of the control network. Enter the IP address for the NTP server and select the packet version (1, 2, 3, or 4).
2. Set with PC Time
This option will match the Gateway’s time to that of the PC/Laptop.
3. Manual Entry
This option allows the user to enter a specific date (MM:DD:YY) and time (HH:MM:SS).
Note
Network Time Protocol (NTP) is recommended for the best network performance because it always adjusts time to match the network time server.
Failure to provide regular time synchronization over a long period of time (months) can cause the
Gateway network to drift off time.
Figure 2-2. Setup>Time Settings
Initial Connection
Reference Manual
00809-0200-4410, Rev BC
TCP/IP network settings
Initial Connection
July 2017
Use caution when making changes to the TCP/IP network settings. If they are lost or entered incorrectly, the Gateway will require a factory reset (see
“Resetting to factory defaults” on page 11
). Contact the network administrator for information on the proper TCP/IP network settings to apply.
Prior to the Gateway being installed and connected to a live control network, it should be configured
.
Figure 2-3. Ethernet Settings
Initial Connection
Request the following configuration items from the network administrator:
Hostname
Domain Name
IP address
Netmask
Gateway
Obtaining an IP address from a DHCP server is not recommended, since the Gateway operation will be dependent on the availability of the DHCP server. For maximum Gateway availability it is best practice to specify an IP address.
9
Initial Connection
July 2017
2.3.4
2.3.5
Reference Manual
00809-0200-4410, Rev BC
To change the TCP/IP Network Settings:
1. Navigate to System Settings>Ethernet Communication .
2. Select Specify an IP address (recommended).
3. Enter the following:
Hostname
Domain Name
IP Address
Netmask
Gateway
4. Select Submit .
5. When prompted, select Restart Apps .
6. Select Yes to confirm restart.
7. Close the web browser.
Note
Once the IP Address of the Gateway has been changed, communications to the web interface will be lost.
Restart the web browser, then log back into the Gateway using the new IP address and other TCP/IP network settings. The PC/Laptop TCP/IP network settings may need to be changed. During a Restart
Apps the wireless network will be temporarily lost.
System backup
The Gateway has a System Backup and Restore feature that saves all user-configured data. It is best practice that a System Backup be performed periodically throughout the installation and configuration process.
1. Navigate to System Settings>Gateway>Backup and Restore>Save .
2. Select Save Configuration .
3. The Gateway collects the configuration date and when the file download pop up appears, select Save .
4. Enter a save location and file name.
5. Select Save .
6. Select Return to form .
Note
System backup contains user passwords and keys used for encrypting communication. Store downloaded system backups in a secure location.
Web page usage
It is not recommended that users stay logged on to a single page or a large number of users on multiple pages for long periods of time. This additional loading can slow the flow of data. The Gateway by default logs users out who are logged on for long periods of time with no activity.
10 Initial Connection
Reference Manual
00809-0200-4410, Rev BC
2.3.6
Initial Connection
July 2017
Resetting to factory defaults
In the event that the user name, password, or IP address of the Gateway is lost, the Gateway can be restored to factory defaults by the procedure below.
Note
Following this procedure will cause the network to reform and all configuration parameters will be reset to factory defaults. Once the Gateway is reset, the user is strongly recommended to change the default password to maintain system security.
1. Turn off power to the Gateway, remove connectors, and un-mount the device from the DIN rail.
2. Locate the Reset switch label on the back of the Gateway.
3. Break the label in the center and slide the switch up.
4. Mount and reconnect the Gateway; turn power ON on to the gateway.
5. Let the Gateway completely boot up (approximately 2 minutes). During this time the red Reset light on the front of the unit will be ON .
6. Turn off power to the Gateway, remove connectors and un-mount it from the rail again.
7. Return the Reset switch to lower position.
8. Mount and reconnect the Gateway; turn power ON on to the Gateway.
9. Verify the reset light is off, indicating the Reset switch is in the lower position. The Gateway will now be programmed back to factory defaults including IP addresses. The factory default IP addresses can be found in
.
Initial Connection 11
Initial Connection
July 2017
Reference Manual
00809-0200-4410, Rev BC
12 Initial Connection
Reference Manual
00809-0200-4410, Rev BC
Section 3
Mounting and Connection
July 2017
Mounting and Connection
3.1
3.1.1
Installation
Explosions could result in death or serious injury.
Verify the operating atmosphere of the device is consistent with the appropriate hazardous locations certifications.
Electrostatic discharge can damage electronics.
Use proper personal grounding before handling electronics or making contact with leads and terminals
Electrical shock could cause death or serious injury. If the device is installed in a high-voltage environment and a fault condition or installation error occurs, high voltage may be present on transmitter leads and terminals.
Use extreme caution when making contact with the leads and terminals.
Failure to follow these installation guidelines could result in death or serious injury.
Make sure only qualified personnel perform the installation.
This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions:
This device may not cause harmful interference.
This device must accept any interference received, including interference that may cause undesired operation.
This device must be installed to ensure a minimum antenna separation distance of 20 cm from all persons.
Overview
This section describes how to properly mount the Emerson ™ Wireless 1410 Gateway (Gateway) and make electrical connections, including electrical wiring, grounding, and host system connections. This section also describes how to mount the optional remote antenna.
General considerations
The unit itself is not designed for outdoor mounting without a suitable enclosure. The Gateway should be mounted in an approved electrical enclosure or building.
The Gateway should be mounted in a location that allows convenient access to the host system network
(process control network) as well as the wireless field device network and protects the Gateway from moisture and contamination.
13
Mounting and Connection
July 2017
3.1.2
3.2
Reference Manual
00809-0200-4410, Rev BC
Physical description
The Gateway electronics is enclosed in a polymer housing. The front of the enclosure has connections for power, Ethernet, and serial communications. The unit is designed to be mounted on a DIN rail inside an electronic enclosure.
Mounting
The unit can be snapped onto a DIN TS35/7.5 or TS35/15 rail system. To clip the unit onto the DIN rail, see
1. Tilt the unit at a slight angle allowing the lower lip of the chassis to catch the bottom of the DIN rail.
2. Apply pressure forward to snap the back of the unit securely onto the DIN rail.
Figure 3-1. Installing
14
To remove the unit, see
.
1. Place a flat or rounded object (such as a screw driver) into the DIN clip and apply a slight pressure downwards on the object.
2. Once the unit is released from the DIN rail pull backwards and down to successfully disengage.
Figure 3-2. Removing
Mounting and Connection
Reference Manual
00809-0200-4410, Rev BC
3.3
Mounting and Connection
July 2017
NOTICE
When mounting the unit in an electrical enclosure or other location, comply with the appropriate local and governmental installation codes. Verify the installer, associated hardware, and installation equipment used have the proper certifications for the specific type of installation being performed.
Before installation, verify if local codes require a permit and/or an inspection before energizing. When planning the installation, account for routing the antenna cable within the enclosure.
Note
Do not mount the antenna within a metal enclosure. To avoid damage to sensitive RF components, do not remove protective cap from the Gateway SMA connector until ready to install the antenna.
Remote antenna
The small black flexible basic antenna supplied with the unit is for bench testing. In most locations, a remote antenna is recommended for best range and performance. The remote antenna options provide flexibility for mounting the Gateway based on wireless connectivity, lightning protection, and current work practices.
Note
To avoid damage to sensitive RF components do not remove protective cap from the Gateway SMA connector until ready to install the antenna.
When installing remote mount antennas for the Wireless Gateway, always use established safety procedures to avoid falling or contact with high-power electrical lines.
Install remote antenna components for the Wireless Gateway in compliance with local and national electrical codes and use best practices for lightning protection.
Before installing consult with the local area electrical inspector, electrical officer, and work area supervisor.
The Wireless Gateway remote antenna option is specifically engineered to provide installation flexibility while optimizing wireless performance and local spectrum approvals. To maintain wireless performance and avoid non-compliance with spectrum regulations, do not change the length of cable or the antenna type.
If the supplied remote mount antenna kit is not installed per these instructions, Emerson is not responsible for wireless performance or non-compliance with spectrum regulations.
The remote antenna kit includes coaxial sealant for the cable connections, for the lightning arrestor, and for the antenna.
Find a location where the remote antenna has optimal wireless performance. Ideally this will be 15–25 ft
(4,6–7,6 m) above the ground or 6 ft (2 m) above obstructions or major infrastructure. To install the remote antenna use one of the following procedures:
Installation 15
Mounting and Connection
July 2017
Reference Manual
00809-0200-4410, Rev BC
Installation of WL2/WN2 option
1. Mount the antenna on a 1.5- to 2-in. pipe mast using the supplied mounting equipment.
2. Connect the lightning arrestor directly to the bottom of the user supplied enclosure.
3. Install the grounding lug, lock washer, and nut on top of the lightning arrestor.
4. Connect the antenna to the lightning arrestor using the supplied coaxial cable ensuring the drip loop is not closer than 1 ft (0,3 m) from the lightning arrestor.
5. Use the coaxial sealant to seal each connection between the Gateway, lightning arrestor, cable, and antenna.
6. Ensure the mounting mast, lightning arrestor, and Gateway are grounded according to local/national electrical code.
Any spare lengths of coaxial cable should be placed in 1 ft (0,3 m) coils.
Figure 3-3. Installation of WL2/WN2 Option
C
A
B
A. User supplied enclosure containing Gateway
B. Ground
C. Remote antenna
D. Cable
E. Lightning arrestor
F. Drip loop
G. Earth
F
G
D
E
Note: Weather proofing is required!
The remote mount antenna kit includes coaxial sealant for the cable connections for the lightning arrestor, antenna, and Gateway. The coaxial sealant must be applied to guarantee performance of the wireless field network. See
for details on how to apply weather proofing.
16 Mounting and Connection
Reference Manual
00809-0200-4410, Rev BC
Figure 3-4. Applying Coaxial Sealant to Cable Connections
Mounting and Connection
July 2017
3.4
3.4.1
3.4.2
Table 3-1. Remote Antenna Kit Options
Kit option Antenna
WL2
WN2
1 /
2
Wavelength dipole omni-directional
+6 dB Gain
1 /
2
Wavelength dipole omni-directional
+8 dB Gain
Cable 1
50 ft (15,2 m) LMR-400
25 ft (7,6 m) LMR-400
Lightning arrestor
Head mount, jack to plug
Gas discharge tube
0.5 dB insertion loss
Head mount, jack to plug
Gas discharge tube
0.5 dB insertion loss
Connections
Grounding
The DIN rail should always be grounded in accordance with national and local electrical codes. The most effective grounding method is a direct connection to earth ground with minimal impedance. Grounding to the Gateway is accomplished through the DIN rail clip on the back of the Gateway.
Ethernet
The Gateway is equipped with two 10/100 base-TX Ethernet communications ports (see
Modbus TCP, OPC, and EtherNet/IP protocols.
The primary Ethernet port (Ethernet 1) is used to connect to the host system or other application systems. The secondary Ethernet port (Ethernet 2) can be used as a back up connection or a maintenance port for local access to the Gateway.
Note
Unless dual Ethernet ports were specified at the time of order, the secondary Ethernet port (Ethernet 2) will not be active.
Installation 17
Mounting and Connection
July 2017
Figure 3-5. Gateway Terminal Block
Power
Reset
Reference Manual
00809-0200-4410, Rev BC
A
B
+ -
C
S A+ B-
3.4.3
A. 5-screw terminal block
B. 24 VDC (nominal) power input
C. Serial Modbus ®
Ethernet connections should use Cat5e shielded cable to connect to an Ethernet hub, switch, or router.
The maximum cable length should not exceed 328 ft (100 m).
RS-485
The Gateway can be ordered with an optional RS-485 (serial) connection (
).
Modbus terminals are labeled A and B on the wiring diagram. This connection is used to communicate
Modbus RTU on an RS-485 data bus.
Use 18 AWG single twisted shielded pair wiring to connect the Gateway to the RS-485 data bus. The total bus length should not exceed 4000 ft (1220 m). Connect the Tx - (negative, receive) wire to terminal A and the Rx + (positive, transmit) wire to terminal B. The wiring shield should be trimmed close and insulated from touching the Gateway enclosure or other terminations.
If the existing data bus uses a 4-wire Full Duplex configuration, see
Figure 3-6 to convert to a 2-wire Half
Duplex configuration.
Figure 3-6. Convert from Full to Half Duplex
Tx
Rx
(A)
Tx
Rx
(B)
18 Mounting and Connection
Reference Manual
00809-0200-4410, Rev BC
3.4.4
Mounting and Connection
July 2017
Terminating resistors
Three DIP switches are provided to enable various terminating resistors to the RS-485 data bus. The switches are found inside the electronics housing, located behind an access slot on the upper right side.
The switches number bottom to top 1 through 3 and the upward position is ON .
Figure 3-7. RS-485 Resistor DIP Switches
ON
DIP Switches (1)
K40
1
A
2
B
3
C
Installation
A. 470 Ω pull-up resistor
B. 120 Ω terminating resistor
C. 470
Ω
pull-down resistor
1. Use a sharp non metal tool to switch between resistor options.
Switches 1 and 3 are connected to pull-up and pull down resistors. Switch 1 is for the Tx (A) line and
Switch 3 is for the Rx (B) line. These 470 ohm resistors are used to prevent noise from being interpreted as valid communications during periods when no actual communications are occurring. Only one set of pull-up and pull-down resistors should be active on the RS-485 data bus at time.
Switch 2 is connected to a 120 ohm terminating resistor. This resistor is used to dampen signal reflections on long cable runs. RS-485 specifications indicate that the data bus should be terminated at
). However termination should only be used with high data rates (above 115 kbps) and long cable runs.
Figure 3-8. Typical Half Duplex (2-wire) Network
Up to 4000 ft. (1220 m)
A
Device 1 Device 2
B
Device N
(up to 32 possible)
Terminators required only for high data rates and long cable runs
A. Tx line
B. Rx line
19
Mounting and Connection
July 2017
3.4.5
Reference Manual
00809-0200-4410, Rev BC
Power
The Gateway is designed to be powered by 24 VDC (nominal) Class 2 supply and requires
250 mA of current. The positive and negative connections are depicted on the diagram shown in
.
The wiring should include an external power shut-off switch or circuit breaker that is located near the
Gateway.
Note
Using an uninterruptible power supply (UPS) is recommended to ensure availability should there be a loss of power.
20 Mounting and Connection
Reference Manual
00809-0200-4410, Rev BC
Section 4
4.1
4.2
Software Setup
Software Setup
July 2017
Overview
This section discusses the installation and setup of the optional software included with the Emerson ™
Wireless 1410 Gateway (Gateway). This software is not required for the wireless field network to operate; however, it will aid in secure host integration as well as wireless field device configuration. The following table describes what items are installed and on which disk they can be found.
Table 4-1. Software Applications
Name Description Location
Security Setup
Utility
AMS ™
Wireless
Configurator
Network
Configuration
This utility allows the setup of SSL enabled communications between the Gateway and host system.
This application allows complete configuration of wireless field devices and provides added security through drag and drop provisioning.
This application configures AMS Wireless Configurator to interface to a Wireless Network or a HART ® Modem.
Disk 1
Disk 2
Disk 2
Additional system components may be installed depending on the current configuration of the system.
System requirements
Table 4-2. PC Hardware
Minimum requirements
Intel ® Core 2 Duo, 2.0 GHz
1 GB Memory
1.5 GB free hard disk space
Recommended requirements
Intel Core 2 Quad, 2.0 GHz or greater
3 GB Memory or Greater
2 GB or more of free hard disk space
Note
Additional hard disk space is required for SNAP-ON are 1024 ⫻ 768 resolution and 16-bit color.
™ applications. The minimum monitor requirements
21 Software Setup
Software Setup
July 2017
4.3
Reference Manual
00809-0200-4410, Rev BC
Table 4-3. Supported Operating Systems
Operating system
Windows ™ XP
Windows Server 2003
Windows Server 2003 R2
Windows Server 2008
Windows Server 2008 R2
Windows 7
Windows 7
Windows 8
Version
Professional, Service Pack 3
Standard, Service Pack 2
Standard, Service Pack 2
Standard, Service Pack 2
Standard, Service Pack 1
Professional, Service Pack 1
Enterprise, Service Pack 1
Enterprise, Service Pack 1
Note
Only 32-bit versions of the operating systems are supported for AMS Wireless Configurator.
Software installation
The software can be found on the 2 disk pack, included with the Gateway. Depending on the PC system configuration, installation may take 30–35 minutes. Installing disk one followed by disk two is recommended. The Security Setup Utility is located on Disk 1. To install the software:
1. Exit/close all Windows programs, including any running in the background, such as virus scan software.
2. Insert Disk 1 into the CD/DVD drive of the PC.
3. Follow the prompts.
AMS Wireless Configurator is located on Disk 2. To install the software:
1. Exit/close all Windows programs, including any running in the background, such as virus scan software.
2. Insert Disk 2 into the CD/DVD drive of the PC.
3. Select Install from the menu when the AMS Wireless Configurator setup begins.
4. Follow the prompts.
5. Allow AMS Wireless Configurator to reboot PC.
6. Do not remove the disk from the CD/DVD drive.
7. Installation will resume automatically after login.
8. Follow the prompts.
Note
If the autorun function is disabled on the PC, or installation does not begin automatically, double click
D:\SETUP.EXE (where D is the CD/DVD drive on the PC) and select OK .
22 Software Setup
Reference Manual
00809-0200-4410, Rev BC
4.4
Software Setup
July 2017
Security setup utility
The Security Setup Utility enables secure communications between the Gateway and host system, asset management software, data historians, or other applications. This is done by encrypting the standard data protocols (AMS Wireless Configurator, Modbus ® TCP, and OPC) used by the Gateway and making them available through various proxies within the Security Setup Utility. These proxies can function as a data server for other applications on the control network. The Security Setup Utility can support multiple
Gateways at once and each proxy can support multiple client application connects.
typical system architecture using the Security Setup Utility.
Figure 4-1. Typical Host System Architecture Using Security Setup
D E F G
Security Setup Utility
A B C
H
I
A. AMS proxy
B. Modbus proxy
C. OPC proxy
D. Data server
E. Engineering station
F. Asset management
G. Historian
H. Control network
I. Encrypted data
Note
OPC communications requires the use of the Security Setup Utility regardless of whether encryption is required.
Software Setup 23
Software Setup
July 2017
4.4.1
Reference Manual
00809-0200-4410, Rev BC
Setup
In the Security Setup Utility add a new proxy for each Gateway based on the communication protocol that is being used. For example, add an OPC proxy for each Gateway that is communicating OPC.
Use the following procedure to add a new proxy in the Security Setup Utility:
1. Open the Security Setup Utility.
2. Select EDIT>NEW , then select the type of new proxy to be added.
3. Right click on the new proxy entry and select Properties .
4. Enter the target Gateway’s Hostname and IP Address .
5. Select OK .
6. Select FILE>SAVE .
7. When prompted for authentication, enter the admin password for the target Gateway.
8. Select OK .
9. Repeat
Step 2 – 8 to added additional proxies.
10. Select FILE>EXIT to close the Security Setup Utility.
During this process the Gateway will exchange security certificates (digital signatures) with the proxy.
Figure 4-2. Security Setup Utility
24 Software Setup
Reference Manual
00809-0200-4410, Rev BC
4.5
4.5.1
Software Setup
July 2017
AMS Wireless Configurator
AMS Wireless Configurator helps deploy and configure wireless field devices. It provides an integrated operating environment that leverages the full capabilities of Wireless HART ® , including embedded data trending, charting, and graphical display capabilities provided by enhanced EDDL technology.
Display and modify device configuration
View device diagnostics
View process variables
Provision a wireless device using the drag-and-drop operation so it can join a Gateway’s self-organizing network
Enhance AMS Wireless Configurator functionality with the AMS Wireless SNAP-ON Application
Restrict access to AMS Wireless Configurator functions through the use of security permissions
See the release notes for information specific to the current release of AMS Wireless Configurator. To display the release notes, select START>PROGRAMS>AMS WIRELESS CONFIGURATOR>HELP .
Setup
AMS Wireless Configurator supports connectivity to a Wireless Network and a HART Modem. Both of these interfaces must be configured through the Network Configuration application. To run this application, select START>PROGRAMS>AMS DEVICE MANAGER>NETWORK CONFIGURATION .
Note
Do not have the Security Setup Utility running at the same time as the Network Configuration application or else a configuration error might occur.
Use the following procedure to configure a wireless network for AMS Wireless Configurator:
1. Open the Network Configuration application.
2. Select Add…
3. Select Wireless Network and select Install…
4. Select Next .
5. Enter a name for the wireless network and select Next .
6. Enter the HostName or IP Address for the Gateway and select Add .
7. Repeat
Step 6 if multiple Gateways need to be added.
8. Check the box to Enable Secure Communications with the Wireless Gateway.
9. Select Finish to close the configuration window.
10. Select Close to exit the Network Configuration application.
Software Setup 25
Software Setup
July 2017
Figure 4-3. Wireless Network in the Network Configuration
Reference Manual
00809-0200-4410, Rev BC
4.6
Use the following procedure to configure a HART modem for AMS Wireless Configurator:
1. Open the Network Configuration application.
2. Select Add…
.
3. Select HART modem and select Install…
4. Select Next .
5. Enter a name for the HART modem and select Next .
6. Select the HART master type (default is that AMS Wireless Configurator will be the Primary HART master) and select Next .
7. Select the COM port for the HART modem and select Next .
8. Check the box to Check to support Multi Drop devices .
9. Check the box to Include WirelessHART Adapter .
10. Select Finish to close the configuration window.
11. Select Close to exit the Network Configuration application.
Licensing and credits
The latest licensing agreements are included on each disk of the software pack.
This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit
(http://www.openssl.org/).
26 Software Setup
Reference Manual
00809-0200-4410, Rev BC
Section 5
5.1
5.2
Host Integration
Host Integration
July 2017
Overview
This section describes how to connect the Emerson
™
Wireless 1410 Gateway (Gateway) to a host system and integrate data gathered from the field device network. It covers network architectures, security, and data mapping.
Network architecture
Physical connection types are important when determining the network architecture and what protocols can be used for integration. Ethernet is the primary physical connection type and RS485 is available an optional connection type. The following network architecture diagrams will help when integrating data from the Gateway into the host system.
Ethernet
An Ethernet connection supports Modbus ® TCP, OPC, AMS Wireless Configurator, EtherNet/IP ™ , and
HART ® TCP protocols. Using this connection type, the Gateway is wired directly to a control network (see
) using a network switch, router, or hub. Often there are two networks for redundancy purposes.
Figure 5-1. Ethernet Architecture
A
B C
D E
A. Engineering station
B. Primary control network
C. Secondary control network
D. Controller and I/O
E. Wireless Gateway
27 Host Integration
Host Integration
July 2017
Reference Manual
00809-0200-4410, Rev BC
RS485 (serial)
An RS485 connection supports Modbus RTU protocol. Using this connection type, the Gateway is wired
).
Up to 31 Gateways can be connected to a single I/O card in this manner.
Figure 5-2. RS485 Architecture
A
B C
D
E
F
G
A. Engineering station
B. Primary control network
C. Secondary control network
D. Controller and I/O
E. Serial I/O card
F. RS485 bus
G. Wireless Gateway
28 Host Integration
Reference Manual
00809-0200-4410, Rev BC
5.3
Host Integration
July 2017
Internal firewall
The Gateway supports an internal firewall that inspects both incoming and outgoing data packets. TCP ports for communication protocols are user configurable, including user specified port numbers and the ability to disable ports.
The Gateway’s internal firewall settings can be found by navigating to System Settings>
Protocols>Protocols And Ports .
Figure 5-3. Security Protocols Page (Internal Firewall)
5.4
5.4.1
Modbus
The Gateway supports both Modbus RTU over the RS-485 serial port and Modbus TCP over Ethernet. It functions as a sub device on the Modbus network and must be polled by a Modbus master or client (host system).
Communication settings
It is import that the Modbus communication settings in the Gateway match the settings in the Modbus master or client. Refer to host system documentation for more information on how to configure these settings. The Modbus communication settings can be found by navigating to System Settings>Protocols>Modbus .
Host Integration 29
Host Integration
July 2017
Figure 5-4. Modbus Communications Page
Reference Manual
00809-0200-4410, Rev BC
30
One Modbus Address: When this option is selected, this address is used by the Gateway for Modbus
RTU communications.
Multiple Modbus Addresses: When this option is selected, a new column for address will appear on the
Modbus mapping page.
Modbus TCP Port: This is the TCP/IP port the Gateway uses for Modbus TCP (Ethernet). To change TCP/IP port settings, see the Internal Firewall section for more details.
Baud Rate: The data rate or speed of serial communications. This setting is only required for Modbus
RTU.
Parity: This setting determines parity (none, even, or odd) to use for error checking purposes. This setting is only required for Modbus RTU.
Stop Bits: This setting determines the number (1 or 2) of stop bits to use when ending a message. This setting is only required for Modbus RTU.
Response delay time (ms): This setting determines how long (ms) the Gateway waits before responding to a Modbus request. This setting is only required for Modbus RTU.
Unmapped register read response?: This is the value returned by the Gateway if the Modbus master requests a register with no data assigned to it (empty register). It is recommended this be set to zero fill to prevent errors.
Host Integration
Reference Manual
00809-0200-4410, Rev BC
5.4.2
Host Integration
July 2017
Floating point representation: This setting determines if the Gateway uses floating point values or integer values. There are three options for this setting.
Float: This option uses 32-bit floating point values.
Round: This option rounds the data value to the nearest whole number.
Scaled: This option uses scaled integers to offset negative values or increase decimal point resolution.
The equation for scaled integers is: y = Ax – (B – 32768)
Where: y = Scaled integer returned by the Gateway
A = Gain for scaled integer value x = Measured value from wireless field device
B = Offset for scaled integer value
Use swapped floating point format?: This setting switches which register is sent first for a floating point value. This setting is only used for floating point values.
Incorporate value’s associated status as error?: This setting will cause the Gateway to report a predetermined value when a communications or critical diagnostic error is received from the wireless field device. The value is user configurable depending on which floating point representation is chosen.
See Value reported for error below.
Value reported for error (floating point): This setting determines what value is reported if the wireless field device reports a failure or stops communicating to the Gateway. This setting is used for floating point values. The choices are NaN (not a number), +Inf (positive infinity), -Inf (negative infinity), or Other
(user specified).
Value reported for error (rounded and native integer): This setting determines what value is reported if the wireless field device reports a failure or stops communicating to the Gateway. This setting is used for rounded or scaled integers. The choice is a user specified value between -32768 and 65535.
Scaled floating point maximum integer value: This determines the maximum integer value for the purpose scaling integers. 999-65534
Use global scale gain and offset?: This setting determines if a global gain and offset is applied for scaled integers or if each value has a unique gain and offset. Unique gain and offsets are found on the Modbus
Mapping page.
Global scale gain: This value is multiplied to the data values for the purpose of scaling integers. If global scaling is not selected, a gain value will be available for each separate data value on the Modbus Mapping page.
Global scale offset: This value is added to the data values for the purpose of scaling integers. If global scaling is not selected, an offset value will be available for each separate data value on the Modbus
Mapping page.
Register mapping
Register Mapping is the process of assigning data points from wireless field devices to Modbus registers.
These registers can then be read by a Modbus master or client. Modbus register mapping can be found by navigating to System Settings>Protocols>Modbus.
Host Integration 31
Host Integration
July 2017
Figure 5-5. Modbus Register Map Page
Reference Manual
00809-0200-4410, Rev BC
32
To add a new data point to the Modbus register map:
1. Select New entry .
2. Complete all of the table entries for the new data point (note that the entry columns may vary based on the Modbus communications settings).
3. Repeat for each new data point.
4. Select Submit .
5. When changes have been accepted, select Return to form .
Address: This is the Modbus RTU address used by the Gateway for this data point. It is possible to group data points assigning them the same address (i.e. all data points from the same process unit can have the same address). This column only appears if Multiple Modbus Addresses is selected on the Modbus
Communications page.
Register: This is the Modbus register number used for this data value. Modbus registers hold two bytes
(16 bits) of information; therefore 32-bit floats and integers require two Modbus registers. Each data point needs a unique Modbus register number, unless they are assigned different addresses. Register numbers 0–19999 are reserved for Boolean (bit, coil, binary, etc…) values. Register numbers 20000+ are reserved for floating point or integer values.
Point Name: This is a two part name for the data point. The first part is the HART Tag of the wireless field device which is producing the data. The second part is the parameter of the wireless field device.
Host Integration
Reference Manual
00809-0200-4410, Rev BC
Host Integration
July 2017
Point Name is entered as <HART Tag.PARAMETER> . Point Name can be entered using the list of values (…) or manually entered. The following table gives a list of standard device parameters which may be considered for Modbus register mapping.
Table 5-1. Device parameters available
Parameter Description Data type
PV
SV
TV
QV
RELIABILITY
ONLINE
PV_HEALTHY
SV_HEALTHY
TV_HEALTHY
QV_HEALTHY
Primary Variable
Secondary Variable
Tertiary Variable
Quaternary Variable
A measure of connectivity to the Gateway
Wireless communications status
Health status for PV
Health status for SV
Health status for TV
Health status for QV
32-bit float
32-bit float
32-bit float
32-bit float
32-bit float
Boolean
Boolean
Boolean
Boolean
Boolean
PV, SV, TV, and QV (dynamic variables) will vary by device type. Refer to the device’s documentation for more information on what value is represented by each dynamic variable.
RELIABILITY and ONLINE relate to wireless communications. RELIABILITY is the percentage of messages received from the wireless field device. ONLINE is a true/false indication of whether the device is communicating on the wireless network.
**_HEALTHY parameters are a true/false indication of the health of a particular variable
(** = dynamic variable – PV, SV, etc…). These parameters incorporate critical diagnostics from the wireless field device as well as communication status.
Note
The **_HEALTHY parameters are a great indication of the health and communications status of the data values.
State (state value): The value of a data point which drives a Modbus output of 1. For example, if a data point is reported as either True or False, a state value of True will report a 1 for True and 0 for False. A state of False will report a 0 for True and a 1 for False. State is only required for register numbers 0–19999
(Boolean, bit, coil, binary, etc…).
Invert: This check box will invert the Modbus output from a 1 to a 0 or a 0 to a 1. Invert is only used for
Boolean values using register numbers 0–19999.
Gain: This value is multiplied to the data value for the purpose of scaling integers. Gain is only required if scaled is chosen on the Modbus communications page and globe gain and offset is not chosen.
Offset: This value is added to the data value for the purpose of scaling integers. Offset is only required if scaled is chosen on the Modbus communications page and globe gain and offset is not chosen.
Host Integration 33
Host Integration
July 2017
34
Reference Manual
00809-0200-4410, Rev BC
Predefined Modbus registers
In addition to user configurable parameters, the Gateway also supports a list of predefined Modbus registers with diagnostics and test parameters. The following table is a list of the predefined Modbus registers.
Table 5-2. Predefined Modbus Registers
Description
Current Year (1)
Current Month (1)
Current Day (1)
Current Hour (1)
Current Minute (1)
Current Second (1)
Messages Received
Corrupt Messages Received
Messages Sent With Exception
Messages Sent Count
Valid Messages Ignored
Constant Float 12345.0
SYSTEM_DIAG.HART_DEVICES
SYSTEM_DIAG.ADDITIONAL_STATUS_0
SYSTEM_DIAG.ADDITIONAL_STATUS_1
SYSTEM_DIAG.ADDITIONAL_STATUS_2
SYSTEM_DIAG.ADDITIONAL_STATUS_3
SYSTEM_DIAG.ADDITIONAL_STATUS_4
SYSTEM_DIAG.ADDITIONAL_STATUS_5
SYSTEM_DIAG.ADDITIONAL_STATUS_6
SYSTEM_DIAG.ADDITIONAL_STATUS_7
SYSTEM_DIAG.ADDITIONAL_STATUS_8
SYSTEM_DIAG.ADDITIONAL_STATUS_9
SYSTEM_DIAG.ADDITIONAL_STATUS_10
SYSTEM_DIAG.ADDITIONAL_STATUS_11
SYSTEM_DIAG.ADDITIONAL_STATUS_12
SYSTEM_DIAG.UNREACHABLE
SYSTEM_DIAG.UPTIME
SYSTEM_DIAG.TEST_BOOLEAN
SYSTEM_DIAG.TEST_BYTE
SYSTEM_DIAG.TEST_UNSIGNED_BYTE
SYSTEM_DIAG.TEST_SHORT
Register
49022
49023
49024
49025
49026
49027
49016
49017
49018
49019
49020
49021
49028
49029
49031
49032
49033
49034
49009
49010
49011
49012
49014
49015
49001
49002
49003
49004
49005
49006
49007
49008
Data type
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit int
32-bit float
32-bit int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
8-bit unsigned int
32-bit int
32-bit int
Boolean
8-bit int
8-bit unsigned int
16-bit int
Host Integration
Reference Manual
00809-0200-4410, Rev BC
5.5
Host Integration
July 2017
Table 5-2. Predefined Modbus Registers
Description
SYSTEM_DIAG.TEST_UNSIGNED_SHORT
SYSTEM_DIAG.TEST_INT
SYSTEM_DIAG.TEST_UNSIGNED_INT
SYSTEM_DIAG.TEST_FLOAT
Register
49035
49036
49038
49040
Data type
16-bit unsigned int
32-bit int
32-bit unsigned int
32-bit float
EtherNet/IP
Communication settings
It is important that the EtherNet/IP communication settings in the Gateway match the setting in the
EtherNet/IP master or client. Refer to the host system documentation for more information on how to configure these settings, or to the Emerson Wireless Integration Manual for the EtherNet/IP. The
EtherNet/IP communication settings can be found by navigating to System Settings>Protocols>Ethernet/IP .
Note
EtherNet/IP can be integrated with any approved EtherNet/IP ODVA member. Other protocols such as
HART-IP
™
are still functional within the Gateway. Refer to Emerson Wireless Gateway Product Data Sheet for ordering options.
Host Integration 35
Host Integration
July 2017
Figure 5-6. EtherNet/IP Communications Page
Reference Manual
00809-0200-4410, Rev BC
Table 5-3. System Settings>Protocols>Ethernet/IP
Terms
Assembly Object Type
EtherNet/IP TCP Port
EtherNet/IP UDP Ports
Incorporate value’s associated status as error?
Value reported for error (floating point)
NaN
+Inf
-Inf
Other
Value reported for error (native integer)
Description
EtherNet/IP use Static assembly object.
The TCP Port used to access EtherNet/IP TCP data directly from the Gateway.
The UDP Ports used to access EtherNet/IP UDP data directly from the Gateway.
If the HART variable status indicates a critical failure or if there is a loss of communications, it will be reported through the EtherNet/IP member.
Chooses what value is reported if the value’s associated status indicates a critical failure. Only used if the Gateway is using float representation
Not a number is reported if the value’s associated status indicates a critical failure.
Positive infinity is reported if the value’s associated status indicates a critical failure.
Negative infinity is reported if the value’s associated status indicates a critical failure.
User defined value is reported if the value’s associated status indicates a critical failure.
User defined value is reported if the value’s associated status indicates a critical failure. Only used if the Gateway is using integer representation.
36 Host Integration
Reference Manual
00809-0200-4410, Rev BC
Host Integration
July 2017
Table 5-3. System Settings>Protocols>Ethernet/IP
Terms
Unmapped parameter read response
Parameter mapping
Description
This is the value returned by the Gateway if the EtherNet/IP master requests a register with no data assigned to it (empty register). It is recommended this be set to zero fill to prevent errors.
Register Mapping is the process of assigning data points from wireless field devices to EtherNet/IP registers. These registers can then be read by a EtherNet/IP master or client. EtherNet/IP register mapping can be found by navigating to System
Settings>Protocols>Ethernet/IP.
Figure 5-7. EtherNet/IP Register Map Page
Host Integration 37
Host Integration
July 2017
Reference Manual
00809-0200-4410, Rev BC
Table 5-4. Summary of Terms Used for EtherNet/IP Mapping Page
Terms Description
Input Instance
Output Instance
Member
Point Name
New entry
<<First
<<Previous
Search
Next>>
Last>>
Delete Selected
Select All
Select None
Select Errors
Submit
EtherNet/IP Input Static Assembly Instance - 496 bytes
EtherNet/IP Output Static Assembly Instance - 496 bytes
EtherNet/IP Instance Member in which data will get produced or consumed
Assigned data point in the format HARTtag.parameter
Creates a new entry in this table
Navigates to the first page of this table
Navigates to the previous page of this table
Finds the next occurrence of the characters entered into this field
Navigates to the next page of this table
Navigates to the last page of this table
Removes the selected entry from this table
Selects all table entries
Deselects all table entries
Selects all table entries that have an error message
Accepts all changes (highlighted in yellow)
To add a new data point to the EtherNet/IP register map:
1. Select New entry.
2. Complete all of the table entries for the new data point (note that the entry columns may vary based on the EtherNet/IP communications settings).
3. Repeat for each new data point.
4. Select Submit .
5. When changes have been accepted, select Return to form .
for options of parameters that can be mapped.
38 Host Integration
Reference Manual
00809-0200-4410, Rev BC
Section 6
6.1
Troubleshooting
Troubleshooting
July 2017
Service Support
This section provides basic troubleshooting tips for the Emerson ™ Wireless Field Network. To receive technical support by phone:
Global Service Center
Software and Integration support
United States – 1 800 833 8314
International – 63 2 702 1111
Customer Central
Technical support, quoting, and order-related questions
United States – 1 800 999 9307 (7:00 am to 7:00 pm CST)
Asia Pacific – 65 6777 8211
Europe/Middle East / Africa – 49 (8153) 9390
Or email the wireless specialists at: [email protected]
Initial connection
Web browser returns page not found
Can not find Gateway after changing IP address
Can not find Gateway using Secondary
Ethernet Port
Can not log into the
Gateway
1.
Connect the Gateway and PC/laptop.
2.
Verify the Gateway is properly powered, 24 VDC (nominal) and 250 mA.
3.
Verify which Ethernet port is being used on the Gateway.
4.
Verify the IP address for the Gateway (default primary port is 192.168.1.10, default secondary port is 192.168.2.10 or for DeltaV ™ Ready Gateway’s default primary port is 10.5.255.254, default secondary port is 10.9.255.254).
5.
Verify the IP address of the PC/laptop is in the same subnet range as the Gateway
(i.e. If the Gateway IP is 155.177.0.xxx, then the PC/lap IP address should be
155.177.0.yyy).
6.
Disable Internet browser proxy settings.
1.
Verify the IP address of the PC/laptop is in the same subnet range as the Gateway
(i.e. If the Gateway IP is 155.177.0.xxx, then the PC/lap IP address should be
155.177.0.yyy). Consider resetting the gateway to factory defaults.
1.
Verify which Ethernet port is being used on the Gateway.
2.
Verify the IP address for the Gateway (default primary port is 192.168.1.10, default secondary port is 192.168.2.10).
3.
Verify the IP address of the PC/laptop is in the same subnet range as the Gateway
(i.e. If the Gateway IP is 155.177.0.xxx, then the PC/lap IP address should be
155.177.0.yyy). Verify this option was ordered with the Gateway.
1.
Verify the user name and password. The administrator user name is admin and the default password is default. See
Table 2-1 . If unable to connect, consider resetting
the Gateway.
39 Troubleshooting
Troubleshooting
July 2017
Reference Manual
00809-0200-4410, Rev BC
AMS Wireless Configurator
Gateway does not appear in AMS Wireless
Configurator
Wireless devices do not appear under the
Gateway
Wireless device appears with red HART symbol
Device configuration items are grayed out
1.
Verify the Security Setup Utility is installed on the same PC as AMS Wireless
Configurator.
2.
Setup a wireless network interface using the Network Configuration application.
.
3.
Verify if the wireless network interface is configured for Secure Gateway
Communications.
4.
Verify secure/unsecure AMS Wireless Configurator protocol settings in the
Gateway. Log on to the Gateway and navigate to SETUP > SECURITY >
PROTOCOLS .
5.
Restart AMS Wireless Configurator data server. Right click on AMS Wireless
Configurator server icon in the Windows system tray (lower right corner) and select stop server.
1.
Verify wireless devices are connected to the Gateway. Log on to the Gateway and navigate to EXPLORER .
2.
Right click on wireless network and select rebuild hierarchy.
1.
Install latest device support files from AMS Wireless Configurator. Go to
Emerson.com/Automation/AMS.
1.
Verify whether current or historical information is being displayed. This setting is displayed at the bottom of each device configuration screen. Configuration requires the Current setting.
2.
For security purposes a configuration timeout is applied to sessions that have been idle for more than 30 minutes. Log back into AMS Wireless Configurator.
Wireless field devices
Wireless device does not appear on the network
Wireless device appears in the join failure list
Wireless device appears with service denied
1.
Verify the device has power.
2.
Verify the device is within effect communications range.
3.
Verify the proper Network ID has been entered into the device.
1.
Re-enter the Network ID and Join Key into the device.
1.
Verify the total number of devices on the network (25 max).
2.
Go to SETUP > NETWORK > BANDWIDTH and select analyze bandwidth
(Note: any changes will require the network to reform)
3.
Reduce the update rate for the device.
Modbus ® communications
Can not communicate using Modbus RTU
1.
Verify the use of RS-485
2.
Verify wiring connections. See Section 3: Mounting and Connection
.
3.
Verify if termination or a pull up is required. See Figure 3-7 .
4.
Verify that Modbus serial communications setting in the Gateway match the
Modbus Host settings. Log on to the Gateway and navigate to SETUP >
MODBUS > COMMUNICATIONS .
5.
Verify the Modbus address for the Gateway.
6.
Verify Modbus register mapping in the Gateway. Log on to the Gateway and navigate to SETUP > MODBUS > MAPPING .
40 Troubleshooting
Reference Manual
00809-0200-4410, Rev BC
Troubleshooting
July 2017
Modbus ® communications
Can not communicate using Modbus TCP
Can not communicate using secure Modbus TCP
1.
Verify secure/unsecure Modbus protocol settings in the Gateway. Log on to the Gateway and navigate to SETUP > SECURITY > PROTOCOLS.
2.
Verify the Modbus TCP communications settings in the Gateway. Log on to the Gateway and navigate to SETUP > MODBUS > COMMUNICATIONS.
3.
Verify Modbus register mapping in the Gateway. Log on to the Gateway and navigate to SETUP > MODBUS > MAPPING.
1.
Verify the Security Setup Utility has been installed.
2.
Configure a Secure Modbus Proxy for the Gateway. See
3.
Verify secure/unsecure Modbus protocol settings in the Gateway. Log on to the Gateway and navigate to SETUP > SECURITY > PROTOCOLS.
4.
Verify the Modbus TCP communications settings in the Gateway. Log on to the Gateway and navigate to SETUP > MODBUS > COMMUNICATIONS.
5.
Verify Modbus register mapping in the Gateway. Log on to the Gateway and navigate to SETUP > MODBUS > MAPPING.
OPC communications
OPC application can not find a Gateway OPC server
1.
Verify the Security Setup Utility has been installed on the same PC as the OPC application.
2.
Configure an OPC proxy for the Gateway. See Section 4: Software Setup
.
1.
Configure an OPC proxy for the Gateway. See Section 4: Software Setup
.
Gateway OPC server does not show any Gateways
Gateway OPC server does not show any data tags
1.
Configure the Gateway OPC Browse Tree. Log on to the Gateway and navigate to SETUP > OPC > OPC BROWSE TREE .
2.
Verify the connection status for the OPC proxy in the Security Setup Utility.
3.
Verify if the OPC proxy is configured for secure or unsecure communications.
4.
Verify secure/unsecure OPC protocol settings in the Gateway. Log on to the
Gateway and navigate to SETUP > SECURITY > PROTOCOLS .
5.
Verify network firewall and port settings.
EtherNet/IP ™
The Gateway is not publishing the parameters
1.
Verify connection is established with EtherNet/IP. Navigate to SETUP >
SECURITY > PROTOCOLS.
2.
Reference Emerson Wireless Integration Manual : Installation manual to connect to an Allen-Bradley ® system.
Troubleshooting 41
Troubleshooting
July 2017
6.2
Reference Manual
00809-0200-4410, Rev BC
Return of materials
To expedite the return process outside of North America, contact your Emerson representative.
Within the United States, call the Emerson Response Center toll-free number 1 800 654 7768. The center, which is available 24 hours a day, will assist you with any needed information or materials.
The center will ask for product model and serial numbers, and will provide a Return Material
Authorization (RMA) number. The center will also ask for the process material to which the product was last exposed.
Individuals who handle products exposed to a hazardous substance can avoid injury if they are informed of, and understand, the hazard. If the product being returned was exposed to a hazardous substance as defined by OSHA, a copy of the required Material Safety Data Sheet (MSDS) for each hazardous substance identified must be included with the returned goods.
42 Troubleshooting
Reference Manual
00809-0200-4410, Rev BC
Section 7 Glossary
Glossary
July 2017
Host Name
HTML
HTTP
HTTPS
Join Failure
Join Key
Latency
Netmask
This glossary defines terms used throughout this manual those appearing in the Emerson ™ Wireless
1410 Gateway (Gateway) web interface.
Term
Access Control
List
Active
Advertising
Baud Rate
Burst Rate
Certificate
Connectivity
Device ID
DHCP
Domain
Gateway
Definition
A list of all devices that are approved to join the network. Each device will also have a unique join key. Also referred to as a white list.
An operational state of the network manager that causes the entire wireless field network to send messages looking for new or unreachable devices to join the network.
Communication speed for Modbus ® RTU.
The interval in which a wireless field device transmits measurement and status data to the
Gateway. Same as Update Rate.
A digital signature used to authenticate a client/server while using encrypted communications.
Typically refers to a combination of communication statistics and link reliability of a wireless field device. May also refer to the connection between the Gateway and the Host
System.
A hexidecimal number that provides unique device identification.
Dynamic Host Configuration Protocol: Used to automatically configure the TCP/IP parameters of a device.
A unique designator on the internet comprised of symbols separated by dots such as: this.domain.com.
Refers to the Wireless Gateway.
HART Tag The device’s electronic tag that the Gateway uses for all host integration mapping. Refers to the HART ® long tag (32 characters, used for HART 6 or 7 devices) or the HART message
(32 characters, only used for HART 5 wired devices connected via a Wireless HART ® adapter)
A unique designator in a domain associated with the IP address of a device such as: device.this.domain.com. In that example the hostname is device.
Hyper Text Markup Language: The file format used to define pages viewed with a web browser.
Hyper Text Transfer Protocol: The protocol that defines how a web server sends and receives data to and from a web browser.
HTTP over an encrypted secure sockets layer (SSL)
When a wireless field device fails to join the Wireless HART network. Most join failures are due to security reasons (missing or incorrect join key, not on access control list, etc.)
Hexadecimal security code that allows wireless field devices to join the wireless field network. This code must be identical in the device and the Gateway.
The time from when a message leaves a wireless field device until it reaches the Gateway.
A string of 1's and 0's that mask out or hide the network portion of an IP address leaving only the host component.
43 Glossary
Glossary
July 2017
Reference Manual
00809-0200-4410, Rev BC
Term Definition
Network I.D.
Network Manager Operational function within the Wireless Gateway that automatically handles all device connections and scheduling of wireless data.
NTP
Numeric code that associates wireless field devices to the Gateway. This code must be identical in the device and the gateway.
Path
Path Stability
Primary Interface
Network Time Protocol. Used to keep the system time synchronized with a network time server.
A wireless connection between two devices in a wireless network. Also referred to as a hop.
A measure of connectivity between two devices in the wireless network. Calculated as the ratio of the number of received messages over the number of expected messages.
Ethernet 1 or Fiber Optic port that is used for primary host communications.
Private
Network/LAN
Reliability
A local connection between a Wireless Gateway and a PC/laptop. This network is used for commissioning and configuration of the Gateway.
A measure of connectivity between the Gateway and a wireless field device. Calculated as the ratio of the number of received messages over the number of expected messages.
Takes into account all paths.
Received signal strength indication (dBm) for the wireless field device.
Ethernet 2 port that is used for backup connection or a maintenance port for local access.
RSSI
Secondary
Interface
Security Setup
Utility
Self-Organizing
Network
Service Denied
TCP/IP
A software application that enables secure communications between the Gateway and host system, asset management software, data historians, or other applications.
Mesh network technology in which a network manager automatically handles all device connections and scheduling of wireless data.
The device has been denied bandwidth and can not publish its regular updates.
Update Rate
Transmission Control Protocol/Internet Protocol. The protocol that specifies how data is transmitted over Ethernet.
The interval in which a wireless field device transmits measurement and status data to the
Gateway. Same as Burst Rate.
Wireless HART field devices that are a part of the wireless field network.
Wireless Field
Device(s)
Wireless Field
Network
Wireless Plant
Network
Wireless HART network, consisting of Wireless Gateway and multiple wireless field devices.
Industrial Wi-Fi network, used to integrate the Wireless Field Network into the control network.
44 Glossary
45
Specifications and Reference Data
July 2017
Reference Manual
00809-0200-4410, Rev BC
Appendix A Specifications and Reference Data
A.1 Ordering information
Table A-1. Emerson ™ Wireless 1410 Gateway Ordering Information
The starred offerings ( ★ ) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
Model Product description
1410 Wireless Gateway, 2.4 GHz DSSS, Wireless HART ® , Webserver, AMS Ready, HART-IP ™
Wireless configuration
A 25 Device Network (10.5–30 VDC)
Ethernet communications - physical connection
1 (1)(2)
2 (3)(4)
Single Ethernet connection
Dual Ethernet connection
Serial communication
N
A (5)
None
Modbus ® RTU via RS-485
Ethernet communication - data protocols (6)
D5
D6
E2
E3 (7)
D1
D2
D3
D4
Modbus TCP/IP
OPC
EtherNet/IP ™
Modbus TCP/IP, OPC
EtherNet/IP, Modbus TCP/IP
EtherNet/IP, OPC
Ovation ™ Ready
Webserver Only
★
★
★
★
★
★
★
★
★
★
★
★
★
Specifications and Reference Data
Reference Manual
00809-0200-4410, Rev BC
Specifications and Reference Data
July 2017
Table A-1. Emerson ™ Wireless 1410 Gateway Ordering Information
The starred offerings ( ★ ) represent the most common options and should be selected for best delivery. The non-starred offerings are subject to additional delivery lead time.
Antenna options (8)
NA
N5
N6
WX2
WL2
WN2 (9)
Basic antenna
SMA-to-N-type adapter cable and remote antenna kit
SMA-to-N-type adapter cable and high-gain remote antenna kit
Product certifications
No Approvals
FM Division 2, Non-incendive
CSA Division 2 (Suitable for Canada and the United States)
★
★
★
★
★
★
Options
(Include with selected model number)
Host integration (10)
H6
H9
Allen-Bradley ®
Other
Oil and gas options
G Oil and gas monitor page
Typical model number: 1410 A 2 D5 WX2 NA
1. Single active 10/100 baseT Ethernet port with RJ45 connector.
2. Additional ports disabled.
3. Dual active 10/100 baseT Ethernet ports with RJ45 connectors.
4. Multiple active ports have separate IP addresses, firewall isolation, and no packet forwarding.
5. Convertible to RS232 via adapter, not included with Gateway.
6. Selection of Dual Ethernet option code 2 is recommended.
7. Requires (A) Modbus RTU via RS-485 Communication protocol.
8. The WL2 and WN2 options require minor assembly.
9. Not available in all countries.
10. Support documentation included in the package.
★
★
★
Specifications and Reference Data 46
Specifications and Reference Data
July 2017
Reference Manual
00809-0200-4410, Rev BC
A.2 Functional specifications
A.2.1 Input voltage
10.5–30 VDC Class 2 power supply
A.2.2 Current draw
Operating current draw is based on 3.0 Watt power consumption.
250
A.2.7 Antenna
2 dBi rubber dipole with SMA connector
SMA connection is female
A.3 Physical specifications
A.3.1 Weight
0.70 lb (0,318 kg)
A.3.2 Material of construction
125
Operating
Region
10.5
12
30
24
Voltage (VDC)
A.2.3 Radio frequency power output from antenna
Maximum of 10 mW (10 dBm) EIRP for WL or WX antenna types
Maximum of 40 mW (16 dBm) EIRP for WN2 high gain option
A.2.4 Environmental
Operating temperature range
–40 to 167 °F (–40 to 75 °C)
Operating humidity range
0–100 percent relative humidity
A.2.5 EMC performance
Meets all industrial environment requirements of EN61326 and NAMUR NE-21. Maximum deviation <1% span during
EMC disturbance (1) .
A.2.6 Antenna options
Optional remote mount omnidirectional antenna
Housing
Polymer
A.3.3 Rail mount
Top hat rail EN 50022
(35 mm ⫻ 7.5 mm and 35 mm ⫻ 15 mm)
A.4 Communication specifications
A.4.1 Isolated RS485
2-wire communication link for Modbus RTU multidrop connections
Baud rate: 57600, 38400, 19200, or 9600
Protocol: Modbus RTU
Wiring: Single twisted shielded pair, 18 AWG. Wiring distance is approximately 4000 ft (1,524 m)
A.4.2 Ethernet
10/100base-TX Ethernet communication port
Protocols: Modbus TCP, OPC, EtherNet/IP, HART-IP, https (for Web Interface)
Wiring: Cat5e shielded cable
Wiring distance 328 ft (100 m)
1.
During surge event device may exceed maximum EMC deviation limit or reset; however, device will self-recover and return to normal operation within specified start-up time.
47 Specifications and Reference Data
Reference Manual
00809-0200-4410, Rev BC
Specifications and Reference Data
July 2017
A.4.3 Modbus
Supports Modbus RTU and Modbus TCP with 32-bit floating point values, integers, and scaled integers. Modbus
Registers are user-specified.
A.4.4 OPC
OPC server supports OPC DA v2, v3
A.4.5 EtherNet/IP
Supports EtherNet/IP protocol with 32-bit Floating Point values and Integers. EtherNet/IP assembly input-output instances are user configurable. EtherNet/IP specifications are managed and distributed by ODVA. For details on capabilities, see the Emerson Wireless Gateway to
Allen-Bradley Integration Manual on
Emerson.com/Rosemount .
A.5 Self-organizing network specifications
A.5.1 Protocol
IEC 62591( Wireless HART), 2.4 - 2.5 GHz DSSS
A.5.2 Maximum network size
25 wireless devices at two seconds or greater.
12 wireless devices at one seconds.
A.5.3 Supported device update rates
1, 2, 4, 8, 16, 32 seconds or 1–60 minutes or greater depending on the device.
A.5.4 Network size/latency
25 devices/less than five seconds.
A.5.5 Data reliability
Greater than 99 percent.
A.6 System security specifications
A.6.1 Ethernet
Secure sockets layer (SSL) enabled (default) TCP/IP communications
A.6.2 Wireless Gateway access
Role-based access control (RBAC) including administrator, maintenance, operator, and executive. Administrator has complete control of the Gateway and connections to host systems and the self-organizing network.
A.6.3 Self-organizing network
AES-128 Encrypted Wireless HART, including individual session keys. Drag and drop device provisioning, including unique join keys and white listing.
A.6.4 Internal firewall
User configurable TCP ports for communications protocols, including enable/disable and user specified port numbers.
Inspects both incoming and outgoing packets.
A.6.5 Third party certification
Wurldtech: Achilles Level 1 certified for network resiliency
National Institute of Standards and Technology (NIST):
Advanced Encryption Standard (AES) Algorithm conforming to Federal Information Processing Standard Publication 197
(FIPS-197).
Specifications and Reference Data 48
Specifications and Reference Data
July 2017
A.7 Dimensional drawings
Figure A-1. Wireless Gateway
4.80
(121,9)
Reference Manual
00809-0200-4410, Rev BC
1.437
(37)
A
6.46
(164,0)
A. RF connector on Emerson Wireless 1410 Gateway is an SMA female. Matching RF cable to antenna should be a SMA male.
Note: Allow extra space in front of unit for wiring, antenna connector and antenna cable service loop.
Dimensions are in inches (millimeters).
Figure A-2. WX2 Basic Antenna Dimensions
90° swivel
Dimensions are in millimeters.
109.3 ± 1.0
82.5 ± 1.0
49 Specifications and Reference Data
Reference Manual
00809-0200-4410, Rev BC
Specifications and Reference Data
July 2017
Figure A-3. Remote Omni-Antenna Kit
The remote omni-antenna kit includes sealant tape for remote antenna connection, SMA to N-type adapter cable, mounting brackets for the antenna, and lightning arrester.
WL2 WN2
A
A
C
D
B
B
A. Antenna
B. Lightning arrestor
C. 50-ft. (15,2 m) cable
D. 25-ft. (7,6 m) cable
Figure A-4. SMA to N-Type Adapter Cable
24.0
(610)
.650
(16,51)
A. End cap
Dimensions are in inches (millimeters).
A
Specifications and Reference Data 50
Specifications and Reference Data
July 2017
A.8 Accessories and spare parts
Reference Manual
00809-0200-4410, Rev BC
Table A-2. Accessories
Item description
AMS Wireless SNAP-ON ™ , 1 Gateway licenses
AMS Wireless SNAP-ON, 5 Gateway licenses
AMS Wireless SNAP-ON, 10 Gateway licenses
AMS Wireless SNAP-ON, 5-10 Upgrade licenses
Serial port HART modem and cables only
USB port HART modem and cables only
Part number
01420-1644-0001
01420-1644-0002
01420-1644-0003
01420-1644-0004
03095-5105-0001
03095-5105-0002
Table A-3. Spare Parts
Item description (1)(2) Part number
Spare kit, WL2 replacement, remote antenna, 50 ft (15,2 m) cable, and lightning arrestor 01420-1615-0302
Spare kit, WN2 replacement, high gain, remote antenna, 25 ft (7.6 m) cable, and lightning arrestor 01420-1615-0402
1. Does not include SMA to N-type adapter.
2. Can not upgrade from integral to remote antenna.Replacement Kits must be matched to original antenna type to maintain telecommunication approvals. I.e. WN2 cannot replace a WL2.
51 Specifications and Reference Data
Reference Manual
00809-0200-4410, Rev BC
Specifications and Reference Data
July 2017
Specifications and Reference Data 52
53
Product Certifications
July 2017
Reference Manual
00809-0200-4410, Rev BC
Appendix B Product Certifications
Rev 2.0
B.1 European Directive
Information
A copy of the EC Declaration of Conformity can be found at the end of the Quick Start Guide. The most recent revision of the EC Declaration of Conformity can be found at
Emerson.com/Rosemount .
B.4 Ordinary Location
Certification
As standard, the transmitter has been examined and tested to determine that the design meets the basic electrical, mechanical, and fire protection requirements by a nationally recognized test laboratory (NRTL) as accredited by the Federal Occupational Safety and Health
Administration (OSHA).
B.2 Telecommunication
Compliance
All wireless devices require certification to ensure that they adhere to regulations regarding the use of the RF spectrum.
Nearly every country requires this type of product certification. Emerson ™ is working with governmental agencies around the world to supply fully compliant products and remove the risk of violating country directives or laws governing wireless device usage.
B.5 Installing Equipment in
North America
The US National Electrical Code (NEC) and the Canadian
Electrical Code (CEC) permit the use of Division marked equipment in Zones and Zone marked equipment in
Divisions. The markings must be suitable for the area classification, gas, and temperature class. This information is clearly defined in the respective codes.
B.3 FCC and IC
This device complies with Part 15 of the FCC Rules.
Operation is subject to the following conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. This device must be installed to ensure a minimum antenna separation distance of 20 cm from all persons.
Product Certifications
Reference Manual
00809-0200-4410, Rev BC
Product Certifications
July 2017
B.6 USA
N5 U.S.A.
Certificate: 30349590 (FM)
Standards: FM Class 3600 – 2011,
FM Class 3611 – 2004,
FM Class 3616 – 2011,
FM Class 3810 – 2005;
Markings: NI CL 1, DIV 2, GP A, B, C, D T4; Suitable for use in CL II, III, DIV 2, GP F, G T4; T4 (–40 °C
≤ T a
≤ 60 °C)
Special Condition for Safe Use (X):
1. When installed as Division 2 equipment, the Emerson
Wireless 1410 Gateway shall be mounted within a tool-secured enclosure which meets the requirements of ANSI/ISA 61010-1 and be capable of accepting the applicable wiring methods per the NEC.
Special Conditions for Safe Use (X):
1. The equipment must be installed in an area of not more than Pollution Degree 2 as defined in
IEC 60664-1, and in an enclosure that provides a degree of protection of at least IP54 and meets the relevant requirements of EN 60079-0 and
EN 60079-15.
2. External connections to the equipment must not be inserted or removed unless either the area in which the equipment is installed is known to be non-hazardous, or the circuits connected have been de-energized.
3. The equipment is not capable of withstanding the 500
V electrical strength test as defined in clause 6.5.1 of
EN 60079-15: 2010. This must be taken into account during installation.
4. When fitted, the surface resistivity of the remote antenna is greater than 1 G Ω . To avoid electrostatic charge build up, it must not be rubbed with a dry cloth or cleaned with solvents.
Note
Currently not available for 1410D Gateway option
B.7 Canada
N6 Canada Division 2
Certificate: 2646342 (CSA)
Standards: CAN/CSA C22.2 No. 0-10,
CSA C22.2 No. 213-M1987 (R2013),
CSA C22.2 No. 61010-1 - 2012,
ANSI/ISA-12.12.01 - 2012,
UL61010-1, 3rd Edition
Markings: Suitable for CL I, DIV 2, GP A, B, C, D;
Temperature code: T4 (–40 °C ≤ T a
≤ 70 °C)
Note
Shall be powered by a class 2 power supply.
Suitable for dry indoor locations only.
Equipment must be installed in a suitable tool accessible
enclosure subject to the end use application.
Using the Emerson Wireless 1410D Gateway and the
Emerson Wireless 781Field Link in a hazardous location requires barriers between the two units.
B.8 Europe
N1 ATEX Type n
Certificate: Baseefa14ATEX0125X
Standards: EN 60079-0:2012, EN 60079-15:2010
Markings: II 3 G Ex nA IIC T4 Gc, T4(–40 °C ≤ T a
75 °C), V
MAX
= 30 Vdc
≤
B.9 International
N7 IECEx Type n
Certificate: IECEx BAS 14.0067X
Standards: IEC 60079-0: 2011, IEC 60079-15: 2010
Markings: Ex nA IIC T4 Gc, T4(–40 °C ≤ T a
V
MAX
= 30 Vdc
≤ 75 °C),
Special Conditions for Safe Use (X):
1. The equipment must be installed in an area of not more than Pollution Degree 2 as defined in
IEC 60664-1, and in an enclosure that provides a degree of protection of at least IP54 and meets the relevant requirements of EN 60079-0 and
EN 60079-15.
2. External connections to the equipment must not be inserted or removed unless either the area in which the equipment is installed is known to be nonhazardous, or the circuits connected have been de-energized.
3. The equipment is not capable of withstanding the
500 V electrical strength test as defined in clause 6.5.1 of EN 60059-15:2010. This must be taken into account during installation.
Product Certifications 54
Product Certifications
July 2017
4. When fitted, the surface resistivity of the remote antenna is greater than 1 G Ω . To avoid electrostatic charge build-up, it must not be rubbed with a dry cloth or cleaned with solvents.
Note
Currently not available for 1410D Gateway option.
B.10 EAC – Belarus,
Kazakhstan, Russia
NM Technical Regulation Customs Union (EAC) Type n
Certificate: TC RU C-US.
ΓБ 05.B.01111
Markings: 2Ex nA IIC T4 Gc X, T4(–40 °C ≤ T a
V
MAX
= 30Vdc
≤ 75 °C),
Special Condition for Safe Use (X):
1. See certificate for special conditions.
Note
Currently not available for 1410D Gateway option.
Reference Manual
00809-0200-4410, Rev BC
55 Product Certifications
Reference Manual
00809-0200-4410, Rev BC
Product Certifications
July 2017
Product Certifications 56
Reference Manual
00809-0200-4410, Rev BC
July 2017
Global Headquarters
Emerson Automation Solutions
6021 Innovation Blvd.
Shakopee, MN 55379, USA
+1 800 999 9307 or +1 952 906 8888
+1 952 949 7001
North America Regional Office
Emerson Automation Solutions
8200 Market Blvd.
Chanhassen, MN 55317, USA
+1 800 999 9307 or +1 952 906 8888
+1 952 949 7001
Latin America Regional Office
Emerson Automation Solutions
1300 Concord Terrace, Suite 400
Sunrise, FL 33323, USA
+1 954 846 5030
+1 954 846 5121
Europe Regional Office
Emerson Automation Solutions Europe GmbH
Neuhofstrasse 19a P.O. Box 1046
CH 6340 Baar
Switzerland
+41 (0) 41 768 6111
+41 (0) 41 768 6300
Asia Pacific Regional Office
Emerson Automation Solutions Asia Pacific Pte Ltd
1 Pandan Crescent
Singapore 128461
+65 6777 8211
+65 6777 0947
Middle East and Africa Regional Office
Emerson Automation Solutions
Emerson FZE P.O. Box 17033
Jebel Ali Free Zone - South 2
Dubai, United Arab Emirates
+971 4 8118100
+971 4 8865465
Linkedin.com/company/Emerson-Automation-Solutions
Twitter.com/Rosemount_News
Facebook.com/Rosemount
Youtube.com/user/RosemountMeasurement
Google.com/+RosemountMeasurement
Standard Terms and Conditions of Sale can be found on the Terms and Conditions of
Sale page .
The Emerson logo is a trademark and service mark of Emerson Electric Co.
DeltaV, Ovation, SNAP-ON, Rosemount, and Rosemount logotype are trademarks of
Emerson.
Allen-Bradley is registered by Rockwell Automation.
EtherNet/IP is a trademark of ControlNet International under license by ODVA.
HART and Wireless HART are registered trademarks of the FieldComm Group.
HART-IP is a trademark of the FieldComm Group.
Modbus is a registered trademark of Gould Inc.
Microsoft and Internet Explorer are registered trademarks of Microsoft Corporation in the United States and other countries.
Intel is a registered trademark of Intel Corporation in the U.S. and/or other countries.
Windows is a trademark of Microsoft Corporation in the United States and other countries.
All other marks are the property of their respective owners.
© 2017 Emerson. All rights reserved.
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
advertisement