User’s Manual YFGW510 Field Wireless Access Point IM 01W02E01-01EN IM 01W02E01-01EN 1st Edition
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Toc-i YFGW510 Field Wireless Access Point IM 01W02E01-01EN This document contains important information about using the YFGW510 field wireless access point properly and safely. Please read this document thoroughly before using this product. The configuration of the field wireless system is described in the User’s Manual of the YFGW410 field wireless management station (IM 01W02D01-01EN). Read that document first. CONTENTS Introduction......................................................................
Toc-ii PART-B. FUNCTIONS OF YFGW510 B1. Functions of YFGW510...........................................................................B1-1 B2. Structure and Parts of YFGW510...........................................................B2-1 B2.1 Front View........................................................................................................ B2-1 B2.2 Rear View......................................................................................................... B2-2 B2.3 Side View.
Toc-iii PART-C. INSTALLATION C1. Installation Environment........................................................................C1-1 C2. Power Supply and Grounding...............................................................C2-1 C3. C2.1 Power Supply.................................................................................................. C2-1 C2.2 Grounding........................................................................................................
Toc-iv PART-D. SETUP D1. Initial Configuration................................................................................D1-1 D2. Setup Tool................................................................................................D2-1 D2.1 D2.2 D3. System Requirements.................................................................................... D2-1 D2.1.1 Hardware......................................................................................... D2-1 D2.1.2 Software........
Toc-v PART-E. OPERATION AND MAINTENANCE E1. Routine Maintenance..............................................................................E1-1 E2. Additions and Replacements.................................................................E2-1 E3. Maintenance in Hazardous Areas..........................................................E3-1 E4. Components Having Defined Life Spans.............................................
Toc-vi PART-F. TROUBLESHOOTING F1. Status Information................................................................................... F1-1 F2. Status Indication and Responsive Measures......................................
Toc-vii PART-G. SPECIFICATIONS G1. Standard Specifications........................................................................ G1-1 G1.1 Communication Interface Specifications..................................................... G1-1 G1.2 General Specifications................................................................................... G1-2 G1.3 Regulatory Compliance Statements............................................................. G1-3 G2. Model, Suffix Codes and Option Codes.....
i Introduction This document describes the YFGW510 field wireless access point, which is a core component of field wireless networks. conforming to ISA100.11a, a wireless communication standard for industrial automation that was drawn up by the International Society of Automation (ISA).
ii Safety Precautions IMPORTANT Read the safety precautions for this product that are described in Read Me First (IM 01W02E0111EN). About Radio Wave IMPORTANT • This product is equipped with a wireless module which is designated as a certification of construction type as a wireless facility for 2.4 GHz band low-power data communication system of the Radio Act. Refer to G1.3 Regulatory Compliance Statements for detail.
iii ■ FCC compliance This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Co-Located: This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter.
iv Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
Y Documentation Conventions n Typographical Convention The following typographical conventions are used throughout this document: l Conventions commonly used throughout this document Character string to be entered The characters to be entered are shown in one-byte characters as follows: Example: FIC100.SV=50.0 “”Mark Indicates a space between character strings to be entered. Example: .
YL Information of Revision Document Name: YFGW510 Field Wireless Access Point Document Number: IM 01W02D01-01EN Edition 1st Date August 2012 Page Revised Item New Issue IM 01W02E01-01EN
A1-1 PART-A. OVERVIEW OF FIELD WIRELESS SYSTEM A1. Introduction Read the User’s Manual of the YFGW410 field wireless management station (IM 01W02D0101EN) before reading this document. The YFGW510 field wireless access point is a core component of field wireless networks based on ISA100.11a, a wireless communication standard for industrial automation.
A2-1 A2. System Configuration This section describes the configuration for the field wireless system including YFGW510. Host system Host system Field network Field Wireless Management Station (YFGW410) Field Wireless Management Station (YFGW410) Field Wireless Management Console Field wireless backbone network Subnet A Field wireless network (ISA100.
A2-2
B1-1 PART-B. FUNCTIONS OF YFGW510 B1. Functions of YFGW510 The following block figures show communication functions of YFGW510 for each specification code. Communication function Communication function Internal clock Backbone communication Initial communication IPv4/ARP/ICMP/IGMP ISA communication Field wireless network interface Field wireless backbone interface ISA100.11a BBR 100BASE-TX /100BASE-FX FB0101.
B2-1 B2. Structure and Parts of YFGW510 B2.1 Front View ISA100.11a antenna Wireless LAN antenna 1 Wireless LAN antenna 2 Tag plate for explosion protected type Status indicator LED (ACT, LAN, ISA) Wireless LAN status indicator (C1, C2, AP) Infrared port FB0201.ai Figure B2-1 Front view One to three antenna connectors are provided, depending on the specifications. For all specifications, the ISA100.11a antenna connector is on top.
B2.2 B2-2 Rear View Ground terminal RJ-45 connector ISA100.11a antenna Power supply terminal Wireless LAN antenna 1 Wireless LAN antenna 2 FB0202-1.
B2-3 ISA100.11a antenna Ground terminal SC connector Power supply terminal FB0202-2.ai 100BASE-FX specification Figure B2-2 Rear view of YFGW510 The power supply cable, grounding cable and field wireless backbone cable are connected on the back face of YFGW510. The electrical connection is provided on the bottom. In the 100BASE-FX specification, a media converter module is added to the 100BASE-TX specification.
B2-4 B2.3 Side View ISA100.11a antenna Main name plate FCC label Tag plate Wireless LAN antenna 2 Wireless LAN antenna 1 Electrical connection Electrical connection left side right side Tag plate for explosion protected type Ground terminal FB0203.ai Figure B2-3 Side view of YFGW510 The wireless LAN antenna connector(s) are equipped on the side(s) only for wireless LAN specifications.
B3-1 B3. LED Display Function n The functions of the status indicator LED on the front face are as follows. LED Function ACT Display the operating status of YFGW510 LAN Display the operating status of the communication interface (100BASE-TX/100BASE-FX) ISA100 Display the operating status of ISA100.
B4-1 B4. Mechanical Operating Parts YFGW510 does not have any switches or buttons that can be mechanically operated from outside of the housing.
B5-1 B5. Checking the Product When you receive YFGW510, please check that the product specifications match your order, all items are included and that there is no damage, stains or other problems. n Main unit Main name plate FIELD WIRELESS ACCESS POINT MODEL YFGW SUFFIX STYLE SUPPLY NO. EUI64 MAC MAC WLAN1 MAC WLAN2 VDC Made in Japan TOKYO 180-8750 JAPAN FB0502.ai FB0501.
C1-1 PART-C. INSTALLATION This section describes installation for YFGW510. Follow the steps below to install YFGW510. 1. Installation of YFGW510 2. Wiring of the power supply, grounding cable, signal cables and mounting/wiring of antenna(s) C1. Installation Environment YFGW510 should be installed in appropriate conditions to ensure its stable operation. The table below shows details of the installation environment for YFGW510.
C1-2 IMPORTANT This product is equipped with a wireless module which is designated as a certification of construction type as a wireless facility for 2.4 GHz band low-power data communication system of the Radio Act. Refer to G1.3 Regulatory Compliance Statements for detail. Before use, confirm that the location of installation satisfies the above standard.
C2-1 C2. Power Supply and Grounding An appropriate power supply is necessary for the stable operation of YFGW510. C2.1 Power Supply Connect the power supply to the terminal block of the main unit. SEE ALSO For details of the power supply and power consumption of YFGW510, see C1. Installation Environment. Inrush Current When starting up, inrush current may run into the device.
C3-1 C3. Requirements for Installation C3.1 Requirements for Installation Locations The installation of YFGW510 and field wireless devices must meet the following conditions: • The field wireless equipment should be mounted in the place where no obstacle exists around the antenna. Especially, YFGW510 should be mounted in the condition that no obstacle exists around the antenna.
C3.2 C3-2 Notes on Installation Pay attention to the following points at the installation of YFGW510 and field wireless devices. Installation Location This device is designed to work under the severe environmental condition. However, it is necessary to pay attention to the following conditions for the stable and long-term precise operation.
C4-1 C4. Mounting Mount YFGW510 on the 2-inch (2B) pipe, placed vertically or horizontally, using the dedicated bracket. YFGW510 is accessed through its four or six sides. Make sure that the mounting pipe, the device, connectors or cables will not interfere with radio wave signals. This is achieved by using the dedicated bracket. YFGW510 does not support any other mounting method. Mounting on vertical pipe (Communications interface: 100BASETX/100BASE-FX) FC0401.
C4-2 Mounting on vertical pipe (Communications interface: Wireless LAN client) FC0402.ai Figure C4-2 Mounting on vertical pipe (Communications interface: Wireless LAN client) When used for a single-line wireless LAN, YFGW510 is equipped only with the connector for wireless LAN antenna on the left side of the device. Assemble the bracket and attach YFGW510 to the bracket. Fasten it to the pipe using the Ubolts. For wiring procedure using cable connectors, see the section on wiring.
C4-3 Mounting on horizontal pipe (Communications interface: Wireless LAN client) FC0404.ai Figure C4-4 Mounting on horizontal pipe (Communications interface: Wireless LAN client) For use with a single-line wireless LAN, YFGW510 is equipped only with the connector for a wireless LAN antenna on the left side of the device. Assemble the bracket and attach YFGW510 to the bracket. Fasten it to the pipe using the Ubolts.
C5-1 C5. Wiring This chapter describes connection of the power supply cable, grounding cable and network cable to the installed YFGW510, mounting of antennas and cable connection. • Use cables with a 70°C rating or higher for explosion-proof devices. • Explosion-proof device must be wired in compliance with related laws and regulations. C5.1 Power Supply Cable Connection This section describes power supply cable wiring.
C5-2 Power supply cable connection procedure 1. Insert the power supply cable through the power supply cable gland into the housing. 2. Screw the cable gland into the housing to fasten it. 3. Connect the + cable to the + terminal and the – cable to the – terminal. 4. For shielding the power supply cable, connect the grounding cable to the ground terminal next to the power terminal. Ground terminal Power supply terminal Cable gland Power supply cable FC0501.
C5.2 C5-3 Grounding Cable Connection This section describes ground wiring. Class D grounding (the third class grounding) with the grounding resistance of 100 Ω or less is necessary. To connect the grounding cable to YFGW510 directly, use the ground terminal on the right side of the main device. Do not share the ground wiring with other devices. IMPORTANT The explosion proof compliant device always needs the grounding.
C5.3 Network Cable Connection C5.3.1 Metal Network Cable Connection C5-4 Caution for use with metal network cable The metal network cable is intended for indoor wiring. In outdoor wiring, it is recommended the optical network cable in order to eliminate the influence of electromagnetic noise due to lightning and keep transmission distance.
C5-5 RJ-45 connector Cable Gland for Communication Metal network cable FC0503.ai Figure C5-3 Connecting metal network cable C5.3.2 Optical Network Cable Connection Cable Specification Item Optical network cable Standard 100BASE-FX Connector SC connector (1-pole × 2)* Cable Multimode fiber (central wavelength: 1300 nm) 50/125 µm or 62.5/125 µm The inner tension member must be nonmetal, such as FRP. Transmission range 2 km (Max.
C5-6 Optical network cable connection procedure Connect the optical network cable in the following procedure. 1. Insert the optical network cable through the YFGW510 network cable gland. 2. Insert the connector through the YFGW510 connection and screw in the cable gland. 3. Connect the optical network cable to the SC connector of the device. Do not bend the optical network cable at a sharp angle. 4. The optical network cable consists of a pair of wires.
C5.4 C5-7 Installation and wiring of Antenna This section describes mounting of antennas to YFGW510, and installation of external antennas and their wiring. C5.4.1 Mounting ISA100.11a antenna to YFGW510 This section explains the procedure for mounting the ISA100.11a antenna directly into the connector on top of the device. Screw the antenna into the antenna connector on the top of the device. Ensure that the antenna is properly mounted.
C5-8 Tape • Butyl rubber self-bonding tape • Vinyl tape or a vinyl type self-bonding tape Antenna FC0506.ai Figure C5-6 Sealing of antenna connector IMPORTANT The ISA100.11a antenna connector for the YFGW510 supports 2-dBi standard antennas only. A high-gain antenna, available as an optional accessory, must be installed as a remote antenna with an antenna extension cable, as described in the next section. C5.4.2 Remote Installation and Wiring of ISA100.
C5-9 ISA100.11a antenna 2-inch pipe 2-inch pipe Bracket ISA100.11a antenna U Bolt Antenna Extension Cable Nut Washer Bracket 2 Bracket 1 Antenna Extension Cable Nut and Washer FC0507.ai Figure C5-7 Fastening external antenna Mounting procedure of antenna 1. Fix the antenna extension cable to the bracket 1 with the provided nut as shown in the figure above. 2. Fix the bracket 1 to the 2-inch (2B) pipe by using the provided a pair of U bolts and bracket 2. 3.
C5-10 Wiring of extension antenna cable 1. Use the provided extension antenna cable to connect the antenna connector with the external antenna. Tighten the connector of the antenna extension cable with a torque of 2 to 3 N∙m. Refer to the specification about the limitation of bend radius when fixing or wiring. 2. When using two extension cables, the provided arrester should be inserted between these cables. 3.
C5-11 Grounding cable (Insulated for industrial equipment) Examples • 600 V polyvinyl chloride insulated wires (IV): JIS C3307 • Polyvinyl chloride insulated wires for electrical apparatus (KIV): JIS C3316 • 600 V grade heat-resistant polyvinyl chloride insulated wires (HIV): JIS C3317 • Heatproof vinyl insulated wires VW-1 (UL1015/UL1007) Wire size • grounding cable Terminal treatment • Ring terminal for M4: With insulation cover ISA100.