Omega WI8XX-U manual Operation in Buildings

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7.Where possible, try to ensure an uninterrupted line-of-sight between nodes. Avoid obscuring objects (e.g. metal pillars, posts, sign) near the antenna. A close object obscures a wider range of solid angle.

8.It is important to understand that the environment may change over time due to new equipment or machinery being installed, building construction, etc. If new obstacles exist between the End Device and Meter, antenna angle may need to be re-adjusted and/or the unit has to be relocated.

9.An IEEE 802.15.4 wireless network will not work under water. Wet condition (e.g. in heavy rainfall) may exhibit some degradation. In most cases, water droplets on or close to the antenna are more serious than the rain itself. Humidity can affect radio performance as well.

10.Reduced performance scenario:

a.A large building may have few obstructions between nodes but large amount of metallic paneling that cause reflections.

b.A small domestic installation may have numerous brick walls between nodes in individual rooms.

c.An office building may have metalized dry-wall partitions together with mezzanine ceilings.

End Devices		STORAGE ROOM
-NB9	UWIR
			UWTC
MANUFACTURING
		MANUFACTURING
AREA	Meter/
UWRTD		AREA
	Receiver
UWTC	CONTROL ROOM	OFFICE	OFFICE

Figure 5.1 Operation in Buildings

Data is sent through radio signal at 2.4 GHz. Radio signals are
electromagnetic waves, hence the signal becomes weaker the further it
travels.
While radio waves can penetrate some solid materials like a wall, they
can diminish more than when a direct line-of-sight between the
transmitting and receiving antenna exist.
Therefore, it is generally a good idea to place Meter at the center while
End Devices are located about the same distance away from it. If
possible, keeping clearance around the line of site will improve
performance as well.	68

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Contents User’sGuide Page Table of Contents List of Figures 19a List of Tables Safety Considerations Part IntroductionDescription Customer ServiceBefore You Begin Inspecting Your ShipmentDescription Rockwell Automation, and National Instruments, among others Physical Characteristics and Mounting 2.1.1 Front Panel Front Panel EnunciatorsNetwork Rear Panel ConnectorRear Panel Dimensions Mounting DimensionsAssembly and Mounting 2.1.4.1 Panel Mounting Instruction Panel MountingAntenna Mounting Instruction Antenna MountingDisassembly Instruction Accessing the Main Board AssemblyElectrical Installation Power Connections Use copper conductors only for power connectionsOutputs Wiring Hookup Wiring OutputsOutputs Wiring Hookup Pulse and AnalogTypical Applications Fast BlowJumper Settings for Display Color Setup 10 Location of S1 JumperDip Switches PositionNetwork Communication Interfaces 1 10Base-T RJ-45 Pinout Pin Name DescriptionDhcp Ethernet MAC AddressNetwork Protocols .1 Label Detail 4 Position DIP Switch DNSDefault IP Address IP AddressChanging TCP/IP Properties on Your Computer SectionTesting the Connection Pinging the Meter from MS-DOS PromptAssigning an IP Address using iConnect IConnect SoftwareWireless Sensor Home Setting a New IP Address over the Network Access ControlMeter’s Configurations and Operations Wireless System Home Page MenuLogin Administrator Power Up MeterGet Readings from the End Device LabGet Readings from the End Device ID End Device ID/address Java Runtime Environment Setup Java 1.5.x.x. Screen ShotsJava Runtime Environment 1.4 Setup Instructions 10 Java 1.4.2.x Screen ShotDiagnostics Accessing Meter units within your internal networkAccessing Meter units using the internet Accessing Meter units over Peer-to-Peer networkJava Policy 11 Java PolicyDjava.security.policy=C\0JAVAPOLICY\javapolicy.txt 12 Java PolicyChart 13 ChartChart Controller Setup 14 Controller SetupMonitor SetupTransmission Power MiscellaneousSetup InputSetpoints & On/Off Control Setpoints & On/Off Control Alarms 1 Setup Setup Analog Output RetransmissionDisplay 19a Display Menu19b Display Menu if Analog Output Option Display Color Examples ExampleAmber Passcode ID 20 ID CodeGeneral Network SetupRemote Access Tunneling Terminal ServerTerminal Server Remote AccessGeneral End Device Setup 22 End Device SetupEnd Device Parameters Sensor1 Sensor2Sensor T75F T74FDisplay UpdateCancel Access Control Command Description Response Telnet SetupList of Ascii / Telnet Commands 01 indicates End Device #1 HTTPget using Port HTTPget ProgramConnector/Transmitter Types HTTPget and ARP to Setup Device IP Address27 ARP Commands and Responses ARP ProtocolILog Software 28 iLog Software Logging Data for End Device #2, 6Networked Product ILog File Alternate Wireless DevicesILog Software ILog Excel Applications Networked Product Auto FullInstallation Mail Notifier SoftwareEmail Address Setup Email SetupDevice Setting and Configuration Mail Notifier CommandsAlarm Editor Environment / Operating Conditions General Deployment GuidelinesOperation in Buildings With Line-of-Sight Distance feetMaterial Type Without Line-of-SightCasing and Closure Around the Antenna See .1.4.2 and FigurePart Specifications General Safety & Regulatory Compliance Factory Preset Values InputPasscode ID Factory Preset Values Setpoints & On/Off ControlAlarm Access Control Factory Preset Values Analog Output RetransmissionRemote Access Tunneling MiscFactory Preset Values End Device Setup End Device # 1Appendix Aglossary Appendix BIP Address Address Class Mask Binary Value Mask Decimal Value Ascii Dec Hex Ctrl Key Ascii Control Codes Definition Appendix E ILog Error Messages Error # Description Maximum Power Levels and Antenna Gains WARRANTY/DISCLAIMER Shop on line at omega.com PH/CONDUCTIVITY