FCC ID: WT8OM2PLC Wireless 802.11b/g/n Mesh Router

by: Datto, Inc. latest update: 2012-09-19 model: OM2PLC

One grant has been issued under this FCC ID on 09/19/2012 (this is one of two releases in 2012 for this grantee). Public details available include internal & external photos, frequency information, and manuals. some products also feature user submitted or linked troubleshooting guides, password defaults, warrantee terms, drivers, & instructions.

permalink for this FCC identifier

search for: Repair details

from iFixIt

Trade-in? Recycling locations

eg for Slack usage

all	frequencies		exhibits	applications
		manual

all exhibits 11
1 ~ 2012-09-19 11

app s				submitted / available
1	User Manual	Users Manual	pdf	1.36 MiB
1		Attestation Statements	pdf
1		Cover Letter(s)	pdf
1		Cover Letter(s)	pdf
1		External Photos	pdf
1		Internal Photos	pdf
1		ID Label/Location Info	pdf
1		Operational Description	pdf
1		RF Exposure Info	pdf
1		Test Report	pdf
1		Test Setup Photos	pdf

exhibit
download
text

User Manual

Users Manual

pdf

1.36 MiB

Wireless 802.11b/g/n Mesh Router Model:

OM2P-LC OM2P-HS User Manual Version : 1.0 Table of Contents CHAPTER 1 PRODUCT OVERVIEW.............................................................................................................................7 1.1 FEATURE .......................................................................................................................................................................7 1.2 BENEFITS.......................................................................................................................................................................8 1.3 PACKAGE CONTENTS......................................................................................................................................................9 1.3 SYSTEM REQUIREMENT ..................................................................................................................................................9 CHAPTER 2 HARDWARE OVERVIEW ........................................................................................................................10 CHAPTER 3 INSTALLATION .......................................................................................................................................11 CHAPTER 4 CONFIGURING YOUR COMPUTER FOR TCP/IP .................................................................................14 4.1CONFIGURINGMICROSOFTWINDOWS7............................................................................................................................15 4.2CONFIGURINGMICROSOFTWINDOWSVISTA.......................................................................................................................17 4.3CONFIGURINGMICROSOFTWINDOWSXP..........................................................................................................................19 4.4CONFIGURINGMICROSOFTWINDOWS2000......................................................................................................................20 4.5CONFIGURINGANAPPLEMACINTOSHCOMPUTER................................................................................................................22 CHAPTER5INTRODUCINGTHEWEBCONFIGURATOR.....................................................................................................23 5.1LOGGINGINTOTHEWEBCONFIGURATOR...........................................................................................................................23 CHAPTER 6 STATUS ....................................................................................................................................................25 6.1 SAVE/LOAD.................................................................................................................................................................25 6.2 MAIN .........................................................................................................................................................................26 6.3 WIRELESS CLIENT LIST .................................................................................................................................................27 6.4 SYSTEM LOG ...............................................................................................................................................................28 6.5 CONNECTION STATUS ..................................................................................................................................................29 6.6 DHCP CLIENT TABLE ...................................................................................................................................................30 CHAPTER 7 SYSTEM....................................................................................................................................................31 7.1 CHANGING OPERATING MODES ...................................................................................................................................31 CHAPTER 8 WIRELESS CONFIGURATION ................................................................................................................32 8.1 WIRELESS SETTINGS.....................................................................................................................................................32 8.1.1 Access Point Mode ........................................................................................................................................32 8.1.2 Client Bridge Mode .......................................................................................................................................36 8.1.3 WDS Bridge Mode.........................................................................................................................................38 8.1.4 Client Router Mode .......................................................................................................................................40 8.2 WIRELESS SECURITY SETTINGS......................................................................................................................................42 8.2.1 WEP ................................................................................................................................................................42 8.2.2 WPA-PSK .......................................................................................................................................................43 8.2.3 WPA2-PSK .....................................................................................................................................................44 8.2.4 WPA-PSK Mixed ............................................................................................................................................45 8.2.5 WPA................................................................................................................................................................46 8.2.6 WPA2 .............................................................................................................................................................47 8.2.7 WPA Mixed ....................................................................................................................................................48 8.4 WIRELESS ADVANCED SETTINGS ...................................................................................................................................49 8.5 WIRELESS MAC FILTER ................................................................................................................................................51 8.6 WDS LINK SETTINGS...................................................................................................................................................52 CHAPTER 9 LAN SETUP ..............................................................................................................................................53 9.1 IP SETTINGS ................................................................................................................................................................53 9.2 SPANNING TREE SETTINGS ...........................................................................................................................................54 CHAPTER 10 ROUTER SETTINGS ..............................................................................................................................55 10.1 WAN SETTINGS ........................................................................................................................................................55 10.1.1 Static IP ........................................................................................................................................................55 10.1.2 DHCP (Dynamic IP) ....................................................................................................................................58 10.1.3 PPPoE (Point-to-Point Protocol over Ethernet) ........................................................................................60 10.1.4 PPTP (Point-to-Point Tunneling Protocol) ................................................................................................62 10.2 LAN SETTINGS (ROUTER MODE) ...............................................................................................................................64 10.3 VPN PASS THROUGH ................................................................................................................................................65 10.4 PORT FORWARDING ..................................................................................................................................................66 10.5 DMZ .......................................................................................................................................................................68 CHAPTER 11 MANAGEMENT SETTINGS..................................................................................................................69 11.1 ADMINISTRATION ......................................................................................................................................................69 11.2 MANAGEMENT VLAN ...............................................................................................................................................71 11.3 SNMP SETTINGS ......................................................................................................................................................72 11.4 BACKUP/RESTORE SETTINGS ......................................................................................................................................73 11.5 FIRMWARE UPGRADE.................................................................................................................................................74 11.6 TIME SETTINGS..........................................................................................................................................................75 11.7 LOG..........................................................................................................................................................................76 11.8 DIAGNOSTICS............................................................................................................................................................77 CHAPTER 12 NETWORK CONFIGURATION EXAMPLES.........................................................................................78 12.1 ACCESS POINT ..........................................................................................................................................................78 12.2 CLIENT BRIDGE MODE ...............................................................................................................................................79 12.3 WDS BRIDGE MODE .................................................................................................................................................80 12.4 CLIENT ROUTER.........................................................................................................................................................81 CHAPTER 13 BUILDING A WIRELESS NETWORK ...................................................................................................81 13.1 ACCESS POINT MODE................................................................................................................................................82 13.2 ACCESS POINT MODE WITH WDS FUNCTION .............................................................................................................82 13.3 CLIENT BRIDGE MODE ...............................................................................................................................................83 13.4 WDS BRIDGE MODE .................................................................................................................................................83 13.5 CLIENT ROUTER MODE ..............................................................................................................................................84 13.6 RADIUS CONNECTIONS ...........................................................................................................................................84 APPENDIXATROUBLESHOOTING.................................................................................................................................85 A.1PROBLEMSOLVING.........................................................................................................................................................85 A.2CONTACTINGTECHNICALSUPPORT....................................................................................................................................86 APPENDIXBSPECIFICATIONS.......................................................................................................................................87 APPENDIXCGLOSSARY................................................................................................................................................87 APPENDIXDFCCINTERFERENCESTATEMENT...............................................................................................................92 About This Document Audience This document is written for networking professionals responsible for installing and managing the EnGenius ENH Series Outdoor Access Point/Bridge. To use this guide, you should have knowledge about TCP/IP and IEEE 802.11 standards, and be familiar with the concepts and terminology associated with wireless local-area networks (WLANs). This document provides the information you need to install and configure your Access Point/bridge. Convention This publication uses these conventions/symbols to convey instructions and information and highlight special message. Caution: This symbol represents the important message on incorrect device operation that might damage the device Note: This symbol represents the important message for the settings. Tip: This symbol represents the alternative choice that can save time or resources. Icons used Figuresinthisdocumentmayusethefollowinggenericicons. EHN device Internet Power adapter WLAN signal Client computer desktop Client computer laptop PoE injector Chapter 1 Product Overview ThankyouforchoosingOM2PLC/OM2PHS.TheOM2PLC/OM2PHSisalongrange,highperformanceIEEE 802.11b/g/nnetworksolutionthatprovidesAccessPoint,ClientBridge,WDS,andClientRouterfunctionsinasingle device. Inadditiontoprovidingthelatestwirelesstechnology,theOM2PLC/OM2PHSsupportsPoweroverEthernetand PowerbyAdaptercapabilities,whichallowthedevicetobeinstalledeasilyinnearlyanyindoororoutdoorlocation. Advancedfeaturesincludepowerlevelcontrol,narrowbandwidthselection,trafficshaping,andRealtimeRSSI indication. Avarietyofsecurityfeatureshelptoprotectyourdataandprivacywhileyouareonline.SecurityfeaturesincludeWiFi ProtectedAccess(WPAPSK/WPA2PSK),64/128/152bitWEPEncryption,andIEEE802.1xwithRADIUS. 1.1 Feature The following list summarizes the key features of the OM2P-LC/OM2P-HS:

- High-speed data rates up to 150 Mbps make the OM2P-LC/OM2P-HS ideally suited for handling heavy data payloads such as MPEG video streaming Fully Interoperable with IEEE 802.11b/IEEE 802.11g/IEEE 802.11n-compliant devices

- Multi-function capabilities enable users to use different modes in various environments

Point-to-point and point-to-multipoint wireless connectivity enable data transfers between two or more buildings

- Channel bandwidth selection allows the appropriate bandwidth to be used to reach various distances

RSSI indicator makes it easy to select the best signal for Access Point connections Power-over-Ethernet capabilities allow for flexible installation locations and cost savings Four SSIDs let clients access different networks through a single Access Point, and assign different policies and functions for each SSID

- WPA2/WPA/ WEP/ IEEE 802.1x support and MAC address filtering ensure secure network connections

PPPoE/PPTP function support make it easy to access the Internet via Internet Service Provider (ISP) service authentication SNMP Remote Configuration Management helps administrators remotely configure or manage the Access Point

- QoS (WMM) support enhances performance and user experiences 1.2 Benefits TheOM2PLC/OM2PHSistheidealproductaroundwhichyoucanbuildyourWLAN.Thefollowinglist summarizesafewkeyadvantagesthatWLANshaveoverwirednetworks:

Idealforhardtowireenvironments There are many scenarios where cables cannot be used to connect networking devices. Historicandolderbuildings,openareas,andbusystreets,forexample,makewiredLAN installationsdifficult,expensive,orimpossible. Temporaryworkgroups WLANsmakeit easyto provideconnectivitytotemporaryworkgroupsthat will laterbe removed. Examples include parks, athletic arenas, exhibition centers, disasterrecovery shelters,temporaryoffices,andconstructionsites. Abilitytoaccessrealtimeinformation WithaWLAN,workerswhorelyonaccesstorealtimeinformation,suchasdoctorsand nurses, pointofsale employees, mobile workers, and warehouse personnel, can access thedatatheyneedandincreaseproductivity,withouthavingtolookforaplacetoplug intothenetwork. Frequentlychangedenvironments WLANsarewellsuitedfor showrooms,meetingrooms,retailstores,and manufacturing siteswhereworkplacesarerearrangedfrequently. WirelessextensionstoEthernetnetworks WLANsenablenetworkmanagersindynamicenvironmentstominimizeoverheadcaused bymoves,extensionstonetworks,andotherchanges. WiredLANbackup Network managers can applicationsrunningonwirednetworks. implement WLANs to provide backup for missioncritical Mobilitywithintraining/educational facilities Trainingsitesatcorporationsandstudentsatuniversitiesareafewexampleswhere wirelessconnectivitycanbeusedtofacilitateaccesstoinformation,information exchanges,andlearning. 1.3 Package Contents Openthepackagecarefullyandmakesureitcontainsalloftheitemslistedbelow. OneEnGeniusWirelessAccessPoint/ClientBridge(OM2PLC/OM2PHS) Ifanyitemismissingordamaged,contactyourplaceofpurchaseimmediately. KeepallpackingmaterialsincaseyouneedtoreturntheOM2PLC/OM2PHS.TheOM2PLC/OM2P HSmustbereturnedwithitsoriginalpackingmaterials. UseonlythepoweradaptersuppliedwithyourOM2PLC/OM2PHS.Usingadifferent poweradaptercandamagetheOM2PLC/OM2PHS. 1.3 System Requirement ToinstalltheOM2PLC/OM2PHS,youneedanEthernetcableandacomputerequippedwith:

AnEthernetinterface Oneofthefollowingoperatingsystems:MicrosoftWindowsXP,Vista,or7;orLinux AnInternetbrowserthatsupportsHTTPandJavaScript Chapter 2 Hardware Overview ThefollowingfiguresshowthekeycomponentsontheOM2PLC/OM2PHS. 2.1BottomView ThebottompaneloftheOM2PLC/OM2PHScontainstwoRJ45ports,aPoEinterface,andaReset button.A removablecovercoversthesecomponents. TheRJ45portconnectstoanEthernetadapterinacomputeryouusetoconfiguretheOM2P LC/OM2PHS.Formoreinformation,seeChapter4. ThePoEinterfaceallowstheOM2PLC/OM2PHStobepoweredusingthesuppliedPoEinjector. TheResetbuttoncanbeusedtoreboottheOM2PLC/OM2PHSandreturnthedevicetoits defaultfactoryconfiguration,erasinganyoverridesyoumayhavemadetothedevicesdefault settings.TheResetbuttonisrecessedtopreventaccidentalresets.ToreboottheOM2P LC/OM2PHS,useaflatobjectsuchasapenciltopresstheResetbuttonforapproximately10 secondsandthenstoppressingtheResetbutton. 2.2BackPanel ThebackpaneloftheOM2PLC/OM2PHScontainstheLEDindicatorsthatshowthelinkqualityand statusofthe OM2PLC/OM2PHS. Chapter 3 Installation ThischapterdescribeshowtoinstalltheOM2PLC/OM2PHS.ItalsodescribestheOM2PLC/OM2P HSLEDs. Onlyexperiencedinstallationprofessionalswhoarefamiliarwithlocalbuildingandsafety codesand,whereverapplicable,arelicensedbytheappropriategovernmentregulatoryauthorities shouldinstalltheOM2PLC/OM2PHS. 3.1PreinstallationGuidelines Selecttheoptimallocationsfortheequipmentusingthefollowingguidelines:

- TheOM2PLC/OM2PHSshouldbemountedona1"4"pole.Itslocationshouldenableeasy accesstotheunitanditsconnectorsforinstallationandtesting.

- Thehighertheplacementoftheantenna,thebettertheachievablelinkquality.

- Theantennashouldbeinstalledtoprovideadirect,ornearlineofsightwiththeBaseStation antenna.TheantennashouldbealignedtofacethegeneraldirectionoftheBaseStation. 3.2InstallingtheOM2PLC/OM2PHS ToinstalltheOM2PLC/OM2PHS,usethefollowingproceduretomountthedeviceonapole andrefertothefigurebelow. 1. ThebottomoftheOM2PLC/OM2PHSisamovablecover.Grabthecoverandpullit backhardtoremovethecover. 2. InsertastandardEthernetcableintotheRJ45portlabeledMAINLAN. 3. SlidethecoverbacktosealthebottomoftheOM2PLC/OM2PHS. 4. RemovethepowercordandPoEinjectorfromtheboxandplugthepowercordintothe DCportofthePoEinjector. OnlyusethepoweradaptersuppliedwiththeOM2PLC/OM2PHS.Usingadifferent poweradaptermightdamagetheOM2PLC/OM2PHS. 5. PlugtheothersideoftheEthernetcableinstep3intothePoEportofthePoEinjector. Whenyoufinishstep5,theinstallationwillresemblethefollowingpicture. 6. TurnovertheOM2PLC/OM2PHS.Theninsertthemaststrapthroughthemiddleholeof theOM2PLC/OM2PHS. UseascrewdrivertounlockthepolemountingringputtingitthroughtheOM2P LC/OM2PHS. 7. MounttheEOA200securelytothepolebylockingthestraptightly. Thiscompletestheinstallationprocedure. 3.2 UnderstandingtheOM2PLC/OM2PHSLEDs TherearoftheOM2PLC/OM2PHShastwogroupsofLEDs.Onegroup,labeledINDICATORS,shows thestatusofthedevice.Thesecondgroup,LINKQUALITY,showsthestrengthofthelinkbetween theOM2PLC/OM2PHSandthenetwork.ThefollowingtabledescribestheOM2PLC/OM2PHSLEDs. LED Power LAN Color Green Green WLAN Green Status Mode OFF=OM2PLC/OM2PHSisnotreceivingpower. ON=OM2PLC/OM2PHSisreceivingpower. OFF=OM2PLC/OM2PHSisnotconnectedtothenetwork. ON=OM2PLC/OM2PHSisconnectedtothenetwork,but notsendingorreceivingdata. Blink=OM2PLC/OM2PHSissendingorreceivingdata. AccessPoint orClient BridgeMode OFF=OM2PLC/OM2PHSradioisoffandthedevice isnotsendingorreceivingdataoverthewirelessLAN. ON=OM2PLC/OM2PHSradioison,andthedevice isnotsendingorreceivingdataoverthewireless LAN. Blink=OM2PLC/OM2PHSradioison,andthedevice ShowsthestrengthofthelinkbetweentheOM2P LC/OM2PHS andthenetwork. G=goodquality(green). Y=mediumquality(yellow). LinkQuality SeeStatus column AccessPoint orClient BridgeMode Chapter 4 Configuring Vour Computer for TCP/IP To configure the OM2P-LC/OM2P-HSuse a computer that is configured for TCP/IP. This chapter describes how to configure the TCP/IP settings on a computer that will be used to configure the OM2P-LC/OM2P-HS. 4.1ConfiguringMicrosoftWindows7 UsethefollowingproceduretoconfigureacomputerrunningMicrosoftWindows7. 1. IntheStartmenusearchbox,type:ncpa.cpl 2. WhentheNetworkConnectionsListappears,rightclicktheLocalAreaConnectionicon andclickProperties. 3. IntheNetworkingtab,clickeitherInternetProtocolVersion4(TCP/IPv4)orInternet ProtocolVersion6(TCP/IPv6),andthenclickProperties. 4. Inthepropertiesdialogbox,clickObtainanIPaddressautomaticallytoconfigureyour computerforDHCP. 5. ClicktheOKbuttontosaveyourchangesandclosethedialogbox. 6. ClicktheOKbuttonagaintosaveyourchanges. 4.2ConfiguringMicrosoftWindowsVista UsethefollowingproceduretoconfigureacomputerrunningMicrosoftWindowsVistawiththe defaultinterface.IfyouusetheClassicinterface,wheretheiconsandmenusresembleprevious Windowsversions,performtheprocedureinsection4.4. 1. OntheWindowstaskbar,clickStart,clickControlPanel,andthenselecttheNetwork andInterneticon. 2. ClickViewNetworksStatusandtasksandthenclickManagementNetworks Connections. 3. RightclicktheLocalAreaConnectioniconandclickProperties. 4. ClickContinue.TheLocalAreaConnectionPropertiesdialogboxappears. 5. IntheLocalAreaConnectionPropertiesdialogbox,verifythatInternetProtocol

(TCP/IPv4)ischecked.ThenselectInternetProtocol(TCP/IPv4)andclicktheProperties button.TheInternetProtocolVersion4Propertiesdialogboxappears. 6. IntheInternetProtocolVersion4Propertiesdialogbox,clickObtainanIPaddress automaticallytoconfigureyourcomputerforDHCP. 7. ClicktheOKbuttontosaveyourchangesandclosethedialogbox. 8. ClicktheOKbuttonagaintosaveyourchanges. 4.3ConfiguringMicrosoftWindowsXP UsethefollowingproceduretoconfigureacomputerrunningMicrosoftWindowsXPwiththedefault interface.IfyouusetheClassicinterface,wheretheiconsandmenusresemblepreviousWindows versions,performtheprocedureinsection4.4. 1. OntheWindowstaskbar,clickStart,clickControlPanel,andthenclickNetworkand InternetConnections. 2. ClicktheNetworkConnectionsicon. 3. ClickLocalAreaConnectionfortheEthernetadapterconnectedtotheOM2PLC/OM2PHS. TheLocal AreaConnectionStatusdialogboxappears. 4. IntheLocalAreaConnectionStatusdialogbox,clickthePropertiesbutton.TheLocal AreaConnectionPropertiesdialogboxappears. 5. 6. IntheLocalAreaConnectionPropertiesdialogbox,verifythatInternetProtocol(TCP/IP) ischecked.ThenselectInternetProtocol(TCP/IP)andclickthePropertiesbutton.The InternetProtocol(TCP/IP)Propertiesdialogboxappears. IntheInternetProtocol(TCP/IP)Propertiesdialogbox,clickObtainanIPaddress automaticallytoconfigureyourcomputerforDHCP.ClicktheOKbuttontosavethis changeandclosetheInternetProtocol(TCP/IP)Propertiesdialogbox. 7. ClicktheOKbuttonagaintosaveyourchanges. 8. Restartyourcomputer. 4.4ConfiguringMicrosoftWindows2000 UsethefollowingproceduretoconfigureyourcomputerifyourcomputerhasMicrosoftWindows 2000installed. 1. OntheWindowstaskbar,clickStart,pointtoSettings,andthenclickControlPanel. 2. IntheControlPanelwindow,doubleclicktheNetworkandDialupConnectionsicon.If theEthernetadapterinyourcomputerisinstalledcorrectly,theLocalAreaConnection iconappears. 3. DoubleclicktheLocalAreaConnectioniconfortheEthernetadapterconnectedtothe OM2PLC/OM2PHS.TheLocalAreaConnectionStatusdialogboxappears. 4. 5. IntheLocalAreaConnectionStatusdialogbox,clickthePropertiesbutton.TheLocal AreaConnectionPropertiesdialogboxappears. IntheLocalAreaConnectionPropertiesdialogbox,verifythatInternetProtocol(TCP/IP) ischecked.ThenselectInternetProtocol(TCP/IP)andclickthePropertiesbutton. 6. ClickObtainanIPaddressautomaticallytoconfigureyourcomputerforDHCP. 7. ClicktheOKbuttontosavethischangeandclosetheLocalAreaConnectionProperties dialogbox. 8. ClickOKbuttonagaintosavethesenewchanges. 9. Restartyourcomputer. 4.5ConfiguringanAppleMacintosh Computer ThefollowingproceduredescribeshowtoconfigureTCP/IPonanAppleMacintoshrunningMacOS 10.2.IfyourAppleMacintoshisrunningMacOS7.xorlater,thestepsyouperformandthescreens youseemaydifferslightlyfromthefollowing.However,youshouldstillbeabletousethisprocedure asaguidetoconfiguringyourAppleMacintoshforTCP/IP. 1. PulldowntheAppleMenu,clickSystemPreferences,andselectNetwork. 2. VerifythattheNICconnectedtotheOM2PLC/OM2PHSisselectedintheShowfield. 3. IntheConfigurefieldontheTCP/IPtab,selectUsingDHCP. 4. ClickApplyNowtoapplyyoursettingsandclosetheTCP/IPdialogbox. Chapter5Introducing theWebConfigurator TheOM2PLC/OM2PHShasabuiltinWebConfiguratorthatletsyoumanagetheunitfromany locationusinga WebbrowserthatsupportsHTTPandhasJavaScriptinstalled. 5.1LoggingintotheWebConfigurator AfterconfiguringthecomputerforTCP/IPusingtheprocedureappropriateforyouroperatingsystem, usethatcomputersWebbrowsertologintotheOM2PLC/OM2PHSWebConfigurator. 1.LaunchyourWebbrowser. 2.Inthebrowseraddressbar,type192.168.1.1andpresstheEnterkey. IfyouchangedtheOM2PLC/OM2PHSLANIPaddress,enterthecorrectIPaddress. 3.WhentheWindowsSecuritywindowappears,typeadminastheusernameinthetopfieldand typeadminasthepasswordinthebottomfield. 4.ClickOK YouarenowreadytousetheinstructionsinthefollowingchapterstoconfiguretheOM2PLC/OM2P HS. 5.2BestPractices PerformthefollowingproceduresregularlytomaketheOM2PLC/OM2PHSmoresecureandmanage theOM2PLC/OM2PHS moreeffectively. Changethedefaultpassword.Useapasswordthatisnoteasytoguessandthatcontains differentcharacters,suchasnumbersandletters.TheOM2PLC/OM2PHSusernamecannotbe changed.Formoreinformation,seepage69. Backuptheconfigurationandbesureyouknowhowtorestoreit.Restoringanearlierworking configurationcanbeusefuliftheOM2PLC/OM2PHSbecomesunstableorcrashes.Ifyouforget yourpassword,youwillhavetoresettheOM2PLC/OM2PHStoitsfactorydefaultsettingsand loseanycustomizedoverridesettingsyouconfigured.However,ifyoubackupanearlier configuration,youwillnothavetocompletelyreconfiguretheOM2PLC/OM2PHS.Youcansimply restoreyourlastconfiguration.Formoreinformation,seepage73. Chapter 6 Status TheStatussectiononthenavigationdropdownmenucontainsthefollowingoptions:

- Main

- WirelessClientList

- SystemLog

- ConnectionStatus The following sections describe these options. 6.1 Save/Load This page lets you save and apply the settings shown under Unsaved changes list, or cancel the unsaved changes and revert to the previous settings that were in effect. 6.2 Main Clicking the Main link under the Status drop-down menu or clicking Home at the top-right of the Web Configurator shows status information about the current operating mode.

- The System Information section shows general system information such as operating mode, system up time, firmware version, serial number, kernel version, and application version.

- The LAN Settings section shows Local Area Network setting such as the LAN IP address, subnet mask, and MAC address.

- The Current Wireless Settings section shows wireless information such as frequency and channel. Since the OM2P-LC/OM2P-HS supports multiple-SSIDs, information about each SSID, such as its ESSID and security settings, are displayed. 6.3 Wireless Client List Clicking the Wireless Client List link under the Status drop-down menu displays the list of clients associated to the OM2P-LC/OM2P-HS, along with the MAC addresses and signal strength for each client. Clicking the Refresh button updates (refreshes) the client list. 6.4 System Log The OM2P-LC/OM2P-HS automatically logs (records) events of possible interest in its internal memory.To view the log ged informationclick the System Log link und er the Status d rop-

down menu.If there is not enough internal memory to log all events older events are deleted from the log. System log Home Resel sin ct 19 10:16:33 (none)user.warn kernel: ar5416SetSwitchComant switch co jyAII Oct 19 10:16:58 ( ne)user.warn kernel: jffs2 build filesyscem(): erasing ct 19 10:16:58 (none)user.info kernel: mni fo: u - g scorage direccory:r-

Oct 19 10:16:58 ( ne)user.info kernel: mni fo: using base direccory: /

Oct 19 10:16:34 ( ne)user.warn kernel: jffs2 scan eraseblock(): End of f Oct 19 10:16:34 ( ne)user.warn kernel: jffs2 build filesyscem(): unlocki Oct 19 10:16:33 ( ne)daemon.info dnsmasq[823): using local addresses onl Oct 19 10:16:33 ( ne)daemon.info dnsmasq[823): using local addresses onl Oct 19 10:16:33 (none)daemon.info dnsmasq[823): scarcedversion 2.52 cac Oct 19 10:16:33 (none)daemon.info dnsmasq[823): readinq /

/resolv.conf Oct 19 10:16:33 ( ne)daemon.info dnsmasq[823): read

/etc/hosts - 1 addre Oct 19 10:16:33 ( ne)daemon.info dnsmsq[823):

compile time options: IPv ct 19 10:16:30 (none)user.warn kernel: osif vap init : wait for connecti ct 19 10:16:31 (none)user.info kernel: device athO entered promscuous m ct 19 10:16:31 (none)user.info kernel: br-lan: topoloqy chanqe detected Oct 19 10:16:31 ( ne)user.info kernel: br-lan: port 3(athO) enterinq lea Oct 19 10:16:31 ( ne)user.info kernel: br-lan: port 3(athO) enterinq f Oct 19 10:16:30 ( ne)user.info kernel: device athO left promscuous mode Oct 19 10:16:30 ( ne)user.info kernel: br-lan: port 3(athO) enterinq dis Oct 19 10:16:25 ( ne)user.warn kernel: set SIOC80211NWID8 characters Oct 19 10:16:25 ( ne)user.warn kernel: osif vap init 't1akeup from 't1ait

( I ct 19 10:16:25 (none)user.warn kernel: start runninq 111 1 Rerresh 11 Clear l 6.5 Connection Status Clicking the Connection Statuslink under the Status drop-down menu displays the current status of the network. The information shown includes network typeSSIDBSSIDconnection status wireless modecu rrent ch annel securitydata rate noise level and sig nal strength. Wireless I lClient Router IIEnGenius I Netwo Type SSID BSSID Connection S s Wire ss Mode Current Channel S urity Tx Da Ra Mbps) Current n se vel S nal strength WM I Refl:esh I 6.6 DHCP Client Table Clicking the DHCP Client List link under the Status drop-down menu displays the clients that are associated to the OM2P-LC/OM2P-HS through DHCP.The MAC addresses and signal strength for each client are also shown. Clicking the Refresh button updates (refreshes) the client list. Home Resel DHCP Client List MAC addr I Refl:esh I 11 IP 11 Expires Chapter 7 System ThischapterdescribeshowtochangetheOM2PLC/OM2PHSoperatingmodes. 7.1 Changing Operating Modes The OM2P-LC/OM2P-HS supports four operating modes:

- Access Point

- Client Bridge

- WDS Bridge

- Client Router To select an operating mode, click System Properties under System Section. Then go to System > Operation mode. Device Name: Enter a name for the device. The name you type appears in SNMP management. This name is not the SSID and is not broadcast to other devices. Operation Mode: Use the radio button to select an operating mode. To use Access Point mode with WDS, select Access Point here and then enable the WDS function in the Wireless Network section (see section 8.6). Click Accept to confirm the changes. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). Chapter 8 Wireless Configuration This chapter describes the OM2P-LC/OM2P-HSs wireless settings. Please read the information in this chapter carefully. If you configure a setting improperly, it can impact performance and affect the network adversely. Before you continue, be sure you selected the appropriate operating mode (see Chapter 7). 8.1 Wireless Settings This section describes basic wireless settings. For more information, see Chapter 12. 8.1.1 Access Point Mode The OM2P-LC/OM2P-HS supports Access Point Mode. In this mode, users with a wireless client device within range can connect to the OM2P-LC/OM2P-HS to access the WLAN. The following figure shows an example of an OM2P-LC/OM2P-HS operating in Access Point Mode. The sections that follow the figure below describe how to configure your OM2P-LC/OM2P-HS for Access Point Mode. Wireless Mode Channel HT Mode Extension Channel Channel / Frequency Auto AP Detection Current Profile Wireless mode supports 802.11b/g/n mixed modes. The default channel bandwidth is 40 MHz. The larger the channel, the better the transmission quality and speed. Select upper or lower channel. Your selection may affect the Auto channel function. Select the channel and frequency appropriate for your countrys regulation. Check this option to enable auto-channel selection. AP Detection can select the best channel to use by scanning nearby areas for Access Points. Configure up to four different SSIDs. If many client devices will be accessing the network, you can arrange the devices into SSID groups. Click Edit to configure the profile and check whether you want to enable extra SSID. Profile Isolation Accept / Cancel Restricted Client to communicate with different VID by Selecting the radio button. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). SSID VLAN ID Suppressed SSID Station Separation Wireless Security Save / Cancel Specify the SSID for the current profile. Specify the VLAN tag for the current profile. Check this option to hide the SSID from clients. If checked, the SSID will not appear in the site survey. Click the appropriate radio button to allow or prevent communication between client devices. See the Wireless Security section. Click Save to accept the changes or Cancel to cancel and return previous settings. 8.1.2 Client Bridge Mode Client Bridge Mode lets you connect two LAN segments via a wireless link as though they are on the same physical network. Since the computers are on the same subnet, broadcasts will reach all machines. As a result, DHCP information generated by the server will reach all client computers as though the clients resided on one physical network. The following figure shows an example of an OM2P-LC/OM2P-HS communicating with an Access Point/Wireless Router, such as the EnGenius EOA7530, operating in Client Bridge Mode. The sections that follow the figure below describe how to configure your OM2P-LC/OM2P-HS for Client Bridge Mode. Wireless Mode SSID Site Survey Wireless mode supports 802.11b/g/n mixed modes. Specify the SSID if known. This field is completed automatically if you select an Access Point in the Site Survey. Scans nearby locations for Access Points. You can select a discovered Access Point to establish a connection. Enter the MAC address if known. If you select an Access Point in the Site Survey, this field is completed automatically. Click the appropriate radio button to enable or disable WDS Client. See section 8.2 for information. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Prefer BSSID WDS Client Wireless Security Accept / Cancel Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). Profile Wireless Security Refresh If you used the Site Survey, the Web Configurator shows nearby Access Points. To connect to an Access Point, click the Access Points BSSID. See the Wireless Security section. Click Refresh to scan again. If the Access Point has been configured to suppress its SSID, the SSID section will be blank and must be completed manually. 8.1.3 WDS Bridge Mode Unlike traditional bridging. WDS Bridge Mode allows you to create large wireless networks by linking several wireless access points with WDS links. WDS is normally used in large, open areas, where pulling wires is cost prohibitive, restricted or physically impossible. The following figure shows an example of three OM2P-LC/OM2P-HS configured for WDS Bridge Mode communicating with each other. In this configuration, the OM2P-LC/OM2P-HS device on the left side of the figure behaves as a standard bridge that forwards traffic between the WDS links (links that connect to other OM2P-LC/OM2P-HS WDS bridges). The sections that follow the figure below describe how to configure your OM2P-

LC/OM2P-HS for WDS Bridge Mode. Wireless Mode Channel HT Mode Extension Channel Channel / Frequency Accept / Cancel Wireless mode supports 802.11b/g/n mixed modes. The default channel bandwidth is 40 MHz. The larger the channel, the better the transmission quality and speed. Select upper or lower channel. Your selection may affect the Auto channel function. Select the channel and frequency appropriate for your countrys regulation. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). MAC Address Mode Accept / Cancel Enter the MAC address of the Access Point to which you want to extend wireless connectivity. Select Disable or Enable to disable or enable WDS. Click Accept to confirm the changes or Cancel to cancel and return previous settings. 1. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 2. The Access Point to which you want to extend wireless connectivity must enter the OM2P-

LC/OM2P-HSs MAC address into its configuration. For more information, refer to the documentation for the Access Point. Not all Access Point supports this feature. 8.1.4 Client Router Mode In Client Router Mode, you can access the Internet wirelessly with the support of a WISP. In AP Router Mode, the OM2P-LC/OM2P-HS can access the Internet via a cable or DSL modem. In this mode, the OM2P-LC/OM2P-HS can be configured to turn off the wireless network name

(SSID) broadcast, so that only stations that have the SSID can be connected. The OM2P-

LC/OM2P-HS also provides wireless LAN 64/128/152-bit WEP encryption security, WPA/WPA2, and WPA-PSK/WPA2-PSK authentication, as well as TKIP/AES encryption security. It also supports VPN pass-through for sensitive data secure transmission. The following figure shows an example of an OM2P-LC/OM2P-HS communicating with a Wireless ISP (WISP) Access Point in Client Router Mode. The sections that follow the figure below describe how to configure your OM2P-LC/OM2P-HS for Client Router Mode. Wireless Mode SSID Site Survey Wireless mode supports 802.11b/g/n mixed modes. Specify the SSID if known. This field is completed automatically if you select an Access Point in the Site Survey. Scans nearby locations for Access Points. You can select a discovered Access Point to establish a connection. Prefer BSSID Wireless Security Accept / Cancel Enter the MAC address if known. If you select an Access Point in the Site Survey, this field is completed automatically. See section 10.2. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). Profile Wireless Security Refresh If you used the Site Survey, the Web Configurator shows nearby Access Points. To connect to an Access Point, click the Access Points BSSID. See the Wireless Security section. Click Refresh to scan again. If the Access Point has been configured to suppress its SSID, the SSID section must be completed manually. 8.2 Wireless Security Settings The Wireless Security Settings section lets you configure the EOH200s security modes: WEP, WPA-PSK, WPA2-PSK, WPA-PSK Mixed, WPA, WPA2, and WPA Mixed. We strongly recommend you use WPA2-PSK. 8.2.1 WEP Security Mode Auth Type Input Type Key Length Default Key as its default. Key1 Key2 Key3 Key4 Select WEP from the drop-down list to begin the configuration. Select Open System or Shared. Select an input type of Hex or ASCII. Level of WEP encryption applied to all WEP keys. Choices are Select a 64/128/152-bit password lengths. Specify which of the four WEP keys the OM2P-LC/OM2P-HS uses Specify a password for security key index No.1. For security, each typed character is masked by a dot ( ). Specify a password for security key index No.2. For security, each typed character is masked by a dot ( ). Specify a password for security key index No.3. For security, each typed character is masked by a dot ( ). Specify a password for security key index No.4. For security, each typed character is masked by a dot ( ). 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The connection mode will drop from 802.11n to 802.11g. 8.2.2 WPA-PSK Security Mode Encryption Passphrase Group Key Update Interval Select WPA-PSK from the drop-down list to begin the configuration. Select Both, TKIP, or AES as the encryption type. Both = uses TKIP and AES. TKIP = automatic encryption with WPA-PSK; requires passphrase. AES = automatic encryption with WPA2-PSK; requires passphrase. Specify the security password. For security, each typed character is masked by a dot ( ). Specify how often, in seconds, the group key changes. 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The connection mode will drops from 802.11n to 802.11g. 8.2.3 WPA2-PSK Security Mode Encryption Passphrase Group Key Update Interval Select WPA2-PSK from the drop-down list to begin the configuration. Select Both, TKIP, or AES as the encryption type. Both = uses TKIP and AES. TKIP = automatic encryption with WPA-PSK; requires passphrase. AES = automatic encryption with WPA2-PSK; requires passphrase. Specify the security password. For security, each typed character is masked by a dot ( ). Specify how often, in seconds, the group key changes. 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The connection mode will change from 802.11n to 802.11g. 8.2.4 WPA-PSK Mixed Select WPA-PSK Mixed from the drop-down list to begin the configuration. Select Both, TKIP, or AES as the encryption type. Both = uses TKIP and AES. TKIP = automatic encryption with WPA-PSK; requires passphrase. AES = automatic encryption with WPA2-PSK; requires passphrase. Specify the security password. For security, each typed character is masked by a dot ( ). Specify how often, in seconds, the group key changes. Security Mode Encryption Passphrase Group Key Update Interval WPA-PSK Mixed can allow multiple security modes at the same time. 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The connection mode will change from 802.11n to 802.11g. 8.2.5 WPA Security Mode Encryption Radius Server Radius Port Radius Secret Group Key Update Interval Both = uses TKIP and AES. TKIP = automatic encryption with WPA-PSK. AES = automatic encryption with WPA2-PSK. Select WPA from the drop-down list to begin the configuration. Select Both, TKIP, or AES as the encryption type. Specify the IP address of the RADIUS server. Specify the port number that your RADIUS server uses for authentication. Default port is 1812. Specify RADIUS secret furnished by the RADIUS server. Specify how often, in seconds, the group key changes. 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The connection mode will drops from 802.11n to 802.11g. 8.2.6 WPA2 Security Mode Encryption Radius Server Radius Port Radius Secret Group Key Update Interval Select WPA2 from the drop-down list to begin the configuration. Select Both, TKIP, or AES as the encryption type. Both = uses TKIP and AES. TKIP = automatic encryption with WPA-PSK. AES = automatic encryption with WPA2-PSK. Specify the IP address of the RADIUS server. Specify the port number that your RADIUS server uses for authentication. Default port is 1812. Specify RADIUS secret furnished by the RADIUS server. Specify how often, in seconds, the group key changes. 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The date rate will drop from 802.11n to 802.11g. 8.2.7 WPA Mixed Select WPA Mixed from the drop-down list to begin the configuration. Select Both, TKIP, or AES as the encryption type. Both = uses TKIP and AES. TKIP = automatic encryption with WPA-PSK. AES = automatic encryption with WPA2-PSK. Specify the IP address of the RADIUS server. Specify the port number that your RADIUS server uses for authentication. Default port is 1812. Specify RADIUS secret furnished by the RADIUS server. Specify how often, in seconds, the group key changes. Security Mode Encryption Radius Server Radius Port Radius Secret Group Key Update Interval 802.11n does not allow WEP/WPA-PSK/WPA-PSK TKIP security mode. The connection mode will change from 802.11n to 802.11g. 8.4 Wireless Advanced Settings Data Rate Select a data rate from the drop-down list. The data rate affects throughput. If you select a low data rate value, for example, the throughput is reduced but the transmission distance increases. RTS/CTS Threshold Distance Antenna Selection Short GI Aggregation Specify the threshold package size for RTC/CTS. A small number causes RTS/CTS packets to be sent more often and consumes more bandwidth. Specify the distance between Access Points and clients. Longer distances may drop high-speed connections. Specify the internal antenna type. Sets the time that the receiver waits for RF reflections to settle out before sampling data. Using a short (400ns) guard interval can increase throughput, but can also increase error rate in some installations due to increased sensitivity to radio-frequency reflections. Select the option that works best for your installation. Merges data packets into one packet. This option reduces the Wireless Traffic Shaping number of packets, but increases packet sizes. Check this option to enable wireless traffic shaping. Traffic shaping regulates the flow of packets leaving an interface to deliver improved Quality of Service. Incoming Traffic Limit Specify the wireless transmission speed used for downloading. Outgoing Traffic Limit Specify the wireless transmission speed used for uploading. Accept / Cancel Click Accept to confirm the changes or Cancel to cancel and return previous settings. 1. Changing Wireless Advanced Settings may adversely affect wireless performance. Please accept all default settings, unless you are familiar with the wireless options. 2. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 8.5 Wireless MAC Filter Wireless MAC Filters are used to allow or deny network access to wireless clients according to their MAC addresses. You can manually add a MAC address to restrict the permission to access OM2P-LC/OM2P-HS. The default setting is Disable Wireless MAC Filters. ACL Mode MAC Address Filter Add Apply Determines whether network access is granted or denied to clients whose MAC addresses appear in the MAC Address table on this page. Choices are Disable, Deny MAC in the list, or Allow MAC in the list. Enter the MAC address of the device. Click Add to add the MAC address to the MAC Address table. Click Apply to apply the changes. 0. 8.6 WDS Link Settings Using WDS Link Settings, you can create a wireless backbone link between multiple access points that are part of the same wireless network. This allows a wireless network to be expanded using multiple Access Points without the need for a wired backbone to link them, as is traditionally required. MAC Address Mode Accept / Cancel Enter the Access Points MAC address to which you want to extend the wireless area. Select Disable or Enable from the drop-down list. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). The Access Point to which you want to extend wireless connectivity must enter the OM2P-

LC/OM2P-HSs MAC address into its configuration. For more information, refer to the documentation for the Access Point. Not all Access Point supports this feature. Chapter 9 LAN Setup This chapter describes the OM2P-LC/OM2P-HS Local Area Network (LAN) settings. 9.1 IP Settings This section is only available for Non-Router Mode. IP settings lets you configure the OM2P-

LC/OM2P-HS LAN port IP address. IP Network Setting static IP address Select whether the OM2P-LC/OM2P-HS IP address will use the specified in the IP Address field or be obtained automatically when the OM2P-LC/OM2P-HS connects to a device that has a DHCP server . Enter the IP address of the OM2P-

Enter the OM2P-LC/OM2P-

IP Address LC/OM2P-HS. IP Suet Mask Enter the OM2P-

HS subnet mask. Default Gateway LC/OM2P-HS default gateway. Primary DNS Enter the OM2P-LC/OM2P-HS primary DNS. Secondary DNS Enter the OM2P-LC/OM2P-HS secondary DNS. Accept / Cancel Click Accept to confirm the changes or Cancel to cancel and return previous settings. If you change the LAN IP address, you will be directed to the new IP address after you click Apply. 9.2 Spanning Tree Settings Enable or disable the OM2P-LC/OM2P-HS Spanning Tree function. Specify Bridge Hello Time, in seconds. This value determine how often the OM2P-LC/OM2P-HS sends hello packets to communicate information about the topology throughout the entire Bridged Local Area Network Specify Bridge Max Age, in seconds. If another bridge in the spanning tree does not send a hello packet for a long period of time, it is assumed to be dead. Specify Bridge Forward Delay, in seconds. Forwarding delay time is the time spent in each of the Listening and Learning states before the Forwarding state is entered. This delay is provided so that when a new bridge comes onto a busy network, it looks at some traffic before participating. Specify the Priority number. Smaller number has greater priority. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Spanning Tree Status Bridge Hello Time Bridge Max Age Bridge Forward Delay Priority Accept / Cancel Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). Chapter 10 Router Settings This section is only available for AP Router Mode and Client Router Mode. 10.1 WAN Settings This chapter describes the OM2P-LC/OM2P-HS WAN settings. There are four types of WAN connections:

- Static IP

- DHCP

- PPPoE

- PPTP Please contact your ISP to find out which settings you should choose.. 10.1.1 Static IP Select Static IP for your WAN connection if your ISP provided information about which IP address, subnet mask, default gateway, primary DNS, and secondary DNS to use. Internet Connection Type Account Name Domain Name MTU IP Address Subnet Mask Gateway IP Address Primary DNS Secondary DNS Discard Ping on WAN WAN interface Select Static IP to begin configuration of the Static IP connection. Enter the account name provided by your ISP. Enter the domain name provided by your ISP. Specify the Maximum Transmit Unit size. It is recommended you accept the default setting of Auto. Otherwise, packets will be fragmented downstream if the MTU is set too high or too low, which impacts network performance. In extreme cases, an MTU setting that is too low can prevent the OM2P-LC/OM2P-HS from establishing some connections. Enter the WAN port IP address. IP Enter the WAN IP subnet mask. Enter the WAN gateway IP address. Enter the primary DNS IP address. Enter the secondary DNS IP address. Check to Enable to recognize pings on the OM2P-LC/OM2P-HS or Disable to block pings on the OM2P-LC/OM2P-HS WAN interface. Note:

Pinging IP addresses is a common method used by hackers to test whether the IP address is valid. Blocking pings provides some extra security from hackers. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Accept / Cancel Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 10.1.2 DHCP (Dynamic IP) Select DHCP as your WAN connection type to obtain an IP address automatically. You will need to enter account name as your hostname and, optionally, DNS information. Internet Connection Type Account Name Domain Name MTU Select DHCP to begin configuration of the DHCP connection. Enter the account name provided by your ISP. Enter the domain name provided by your ISP. Specify the Maximum Transmit Unit size. It is recommended you accept the default setting of Auto. Otherwise, packets will be fragmented downstream if the MTU is set too high or too low, which impacts network performance. In extreme cases, an MTU setting that is too low can prevent the OM2P-LC/OM2P-HS from establishing some connections. Get Automatically From ISP Use These DNS Servers Click the radio button to set up the Primary DNS and Secondary Click this radio button to obtain the DNS automatically from the DHCP server. DNS servers manually. Check to Enable to recognize pings on the OM2P-LC/OM2P-HS WAN interface or Disable to block pings on the OM2P-

Select PPTP as your WAN connection type if your ISP uses a Point-to-Point-Tunneling Protocol

(PPTP) connection. You will need to provide the IP add ress subnet maskdefau It 9ateway

(optional) D NS (optional) server Ip u sernameand password provid ed by you r ISP. WAN Settings Home Resel DNS

WMPing PingonWAN IApply I Internet Connection Type Select PPTP to begin configuration ofthe PPTP connection. MTU IP Address Subnet Mask Gateway IP Address PPTP Server Username Password Connect on Demand Keep Alive Specify the Maximum Transmit Unit size. It is recommended you accept the default setting of Auto. Otherwise, packets will be fragmented downstream if the MTU is set too high or too low, which impacts network performance. In extreme cases, an MTU setting that is too low can prevent the OM2P-LC/OM2P-HS from establishing some connections. Enter the WAN port IP address. IP Enter the WAN IP subnet mask. Enter the WAN gateway IP address. Enter the IP address of the PPTP server. Enter the username provided by your ISP. Enter the password provided by your ISP. If you want the OM2P-LC/OM2P-HS to end the Internet connection after it has been inactive for a period of time, select this option and enter the number of minutes you want that period of inactivity to last. If you want the OM2P-LC/OM2P-HS to periodically check your Internet connection, select this option. Then specify how often you want the OM2P-LC/OM2P-HS to check the Internet connection. If the connection is down, the OM2P-LC/OM2P-HS automatically re-establishes your connection Obtains the DNS automatically from DHCP server. Get Automatically From ISP Use These DNS Servers Click the radio button to set up the Primary DNS and Secondary DNS servers manually. Check to Enable to recognize pings on the OM2P-LC/OM2P-HS WAN interface or Disable to block pings on the OM2P-

LC/OM2P-HS WAN interface. Note: Pinging IP addresses is a common method used by hackers to test whether the IP address is valid. Blocking pings provides some extra security from hackers. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Discard Ping on WAN Accept / Cancel Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 10.2 LAN Settings (Router Mode) Enter the LAN port IP address. Enter the LAN IP subnet mask. Enter the WINS Server IP. Check this option to enable the OM2P-LC/OM2P-HS internal DHCP server. Specify the starting IP address range for the pool of allocated for private IP addresses. The starting IP address must be on the same subnet as the ending IP address; that is the first three octets specified here must be the same as the first three octets in End IP Address. Specify the ending IP address range for the pool of allocated for private IP addresses. The ending IP address must be on the same subnet as the starting IP address; that is the first three octets specified here must be the same as the first three octets in Start IP Address. Enter the IP address of the WINS server. Click Accept to confirm the changes or Cancel to cancel and return previous settings. IP Address IP Subnet Mask WINS Server IP Use Router As DHCP Server Starting IP Address Ending IP Address WINS Server IP Accept / Cancel Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 10.3 VPN Pass Through VPN Passthrough allows a secure virtual private network (VPN) connection between two computers. Enabling the options on this page opens a VPN port and enables connections to pass through the OM2P-LC/OM2P-HS without interruption. PPTP Pass Through L2TP Pass Through Pass Through Accept / Cancel Check this option to enable PPTP pass-through mode. Check this option to enable L2TP pass-through mode. IPSec Check this option to enable IPSec pass-through mode. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 10.4 Port Forwarding Port forwarding can be used to open a port or range of ports to a device on your network Using port forwarding, you can set up public services on your network. When users from the Internet make certain requests on your network, the OM2P-LC/OM2P-HS can forward those requests to computers equipped to handle the requests. If, for example, you set the port number 80 (HTTP) to be forwarded to IP address 192.168.1.2, all HTTP requests from outside users are forwarded to 192.168.1.2. Add Entry Accept Click Add Entry to add port forwarding rules. Click Accept to confirm the changes. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). Service Name Protocol Enter a name for the port forwarding rule. Select a protocol for the application: Choices are Both, TCP, and UDP. Enter a starting port number. Starting Port Ending Port Enter an ending port number. All ports numbers between the starting and ending ports will forward users to the IP address specified in the IP Address field. Enter the IP address of the server computer on the LAN network where users will be redirected. IP Address Save / Cancel Click Save to apply the changes or Cancel to return previous settings. 10.5 DMZ If you have a computer that cannot run Internet applications properly from behind the OM2P-

LC/OM2P-HS, you can allow the computer to have unrestricted Internet access. Enter the IP address of that computer as a Demilitarized Zone (DMZ) host with unrestricted Internet access. Adding a client to the DMZ may expose that computer to a variety of security risks, so use this option as a last resort. DMZ Hosting DMZ Address Accept / Cancel Enables or disables the OM2P-LC/OM2P-HS DMZ function. Enter an IP address of the computer that will have unlimited Internet access. Click Accept to confirm the changes or Cancel to cancel and return previous settings. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). Chapter 11 Management Settings The Management section lets you configure administration, management VLAN, SNMP settings, backup/restore settings, firmware upgrade, time settings, and log settings. This chapter describes these settings. 11.1 Administration Click the Administration link under the Management menu to change the user name and password used to log on to the OM2P-LC/OM2P-HS Web Configurator . The default user name is admin and the default password is admin. Changing these settings protects the OM2P-LC/OM2P-HS configuration settings from being accessed by unauthorized users. Name Enter a new username for logging in to the Web Configurator. Password Enter a new password for logging in to the Web Configurator Confirm Password Re-enter the new password for confirmation. Remote Management Remote Upgrade remotely. Remote Management Port If remote management is enabled, enter the port number to be used for remote management. For example: If you specify the port number 8080, enter http://<IP address>:8080 to access Enable or disable remote management. Specify whether the OM2P-LC/OM2P-HS firmware can be upgraded Save/Apply / Cancel the OM2P-LC/OM2P-HS Web Configurator. Click Save/Apply to apply the changes or Cancel to return previous settings. Clicking Save/Apply changes the settings immediately. You cannot undo the action. 11.2 Management VLAN Click the Management VLAN link under the Management menu to assign a VLAN tag to the packets. A VLAN is a group of computers on a network whose software has been configured so that they behave as if they were on a separate Local Area Network (LAN). Computers on VLAN do not have to be physically located next to one another on the LAN Management VLAN ID Accept / Cancel If your network includes VLANs and if tagged packets need to pass through the Access Point, enter the VLAN ID. Otherwise, click No VLAN tag . Click Accept to confirm the changes or Cancel to cancel and return previous settings. 1. If you reconfigure the Management VLAN ID, you may lose your connection to the OM2P-

LC/OM2P-HS. Verify that the DHCP server supports the reconfigured VLAN ID and then reconnect to the OM2P-LC/OM2P-HS using the new IP address. 2. Clicking Accept does not apply the changes. To apply them, use Status > Save/Load (see section 4.1). 11.3 SNMP Settings Click the SNMP Settings link under the Management menu to monitor network-attached devices using the Simple Network Management Protocol (SNMP). SNMP allows messages

(called protocol data units) to be sent to various parts of a network. Upon receiving these messages, SNMP-compatible devices (called agents) return data stored in their Management Information Bases. SNMP Enable/Disable Contact Location Community Name Community Name Trap Destination IP Address Trap Destination Community Name Save/Apply / Cancel Enable or disable the OM2P-LC/OM2P-HS SNMP function. Enter the contact details of the device. Enter the location of the device. Enter the password for accessing the SNMP community for read-only access. Enter the password for accessing the SNMP community for read and write access. Enter the IP address where SNMP traps are to be sent. Enter the password of the SNMP trap community. Click Save/Apply to apply the changes or Cancel to return previous settings. Clicking Save/Apply change the setting immediately. You cannot undo the action. 11.4 Backup/Restore Settings Click the Backup/Restore Setting link under the Management menu to save the OM2P-

LC/OM2P-HSs current settings in a file on your local disk or load settings onto the device from a local disk. This feature is particularly convenient administrators who have several OM2P-LC/OM2P-HS devices that need to be configured with the same settings. This page also lets you return the OM2P-LC/OM2P-HS to its factory default settings. If you perform this procedure, any changes made to the OM2P-LC/OM2P-HS default settings will be lost. Save A Copy of Current Settings Restore Saved Settings from a File Revert to Factory Default Settings Click Backup to save the current configured settings. To restore settings that have been previously backed up, click Browse, select the file, and click Restore. Click this button to restore the OM2P-LC/OM2P-HS to its factory default settings. 11.5 Firmware Upgrade Click the Firmware Upgrade link under the Management menu to upgrade the firmware of the device. To perform this procedure, downloaded the appropriate firmware from your vendor. Thefirmwareupgradeprocedurecantakefewminutes.DonotpowerofftheOM2PLC/OM2P HSduringthefirmwareupgrade,asitcancausethedevicetocrashorbecomeunusable.The OM2PLC/OM2PHSrestartsautomaticallyaftertheupgradecompletes. 11.6 Time Settings Click the Time Settings link under the Management menu to configure the OM2P-

LC/OM2P-HS system time. You can enter the time manually or, to ensure accuracy, synchronize the OM2P-

LC/OM2P-HS with Network Time Protocol (NTP) server. Manually Set Date and Time Automatically Get Date and Time Save/Apply / Cancel Manually specify the date and time. Select a time zone from the drop-down list and check whether you want to enter the IP address of an NTP server or use the default NTP server. Click Save/Apply to apply the changes or Cancel to return previous settings. Clicking Save/Apply changes the setting immediately. You cannot undo the action. 11.7 Log Click the Log link under the Management menu to display a list of events that are triggered on the OM2P-LC/OM2P-HS Ethernet and wireless interfaces. You can consult this log if an unknown error occurs on the system or when a report needs to be sent to the technical support department for debugging purposes. Syslog Log Server IP Address Local Log Save/Apply / Cancel Enable or disable the OM2Psyslog function. Enter the IP address of the log server. Enable or disable the local log service. Click Save/Apply to apply the changes or Cancel to return previous settings. Clicking Save/Apply changes the settings immediately. You cannot undo the action. 11.8 Diagnostics Click the Diagnostics link under the Management menu to ascertain connection quality and trace the routing table to the target. Target IP Ping Packet Size Number of Pings Start Ping Traceroute Target Start Traceroute Enter the IP address you would like to search. Enter the packet size of each ping. Enter the number of times you want to ping. Click Start Ping to begin pinging. Enter an IP address or domain name you want to trace. Click Start Traceroute to begin the trace route operation. Chapter 12 Network Configuration Examples This chapter provides step-by-step descriptions for using the OM2P-LC/OM2P-HSs operating modes. The Access Point Modes default configuration allows the OM2P-LC/OM2P-HS to act as a central unit of a WLAN or as a root device of a wired environment. Repeater mode and Mesh network mode are reserved for future configuration. 12.1 Access Point Access Point Step1 Log in to the Web Configurator with your browser by entering the default IP address 192.168.1.1 Step2 Step3 Step4 Step5 Step6 Step7 Use site survey to scan channels available in nearby areas. Select channel with less interferences. Specify the SSID for your broadcast SSID and you can also configure multiple SSID at the same time. Verify the VLAN identifier to separate services among clients Set the authentication settings. Click Apply to save all changes. For more advanced settings, refer to the previous chapters. Wireless Client Step1 Step2 Step3 Step4 Select the wireless mode with which you want to associate. Use site survey to scan nearby Access Point and either select the Access Point to which you want to connect, or enter the SSID manually. Configure the VLAN ID in your wireless device if available. Select the appropriate authentication type and password. Access Point Mode does not provide DHCP server, so the Wireless Client IP address must be configured manually using the same Local Area Network subnet. 12.2 Client Bridge Mode Client Bridge Mode functions like a wireless dongle. It must connect to an Access Point/AP Router to join the network. Refer to Chapter 13 to check the Access Points configuration. Client Bridge Step1 Log in to the Web Configurator with the default IP address 192.168.1.1 Step2 Step3 Step4 Step5 Step6 For Operation Mode, select Client Bridge from System Properties. Use site survey to scan Access Points that are available in nearby areas. Select the Access Point with which you want to associate. Set up the authentication settings that match the Access Points settings. Click Apply to save all changes. The Client Bridge IP settings must match the Access Points subnet. 12.3 WDS Bridge Mode Use this feature to link multiple Access Points in a network. All clients associated with any Access Points can communicate with each other in an ad-hoc manner. WDS Bridge Step1 Log in to the Web Configurator with the default IP address 192.168.1.1 Step2 Step3 Step4 Step5 Step6 Step7 For Operation Mode, select WDS Bridge from System Properties. Select the channel you want to use. Set up the authentication settings Set up WDS Link Settings. Specify the MAC address of the Access Point with which you want to connect. Click Apply to save all changes. Each WDS bridge device must use the same Subnet, Wireless Mode, Wireless Channel, and Security Setting. 12.4 Client Router In Client Router Mode, the OM2P-LC/OM2P-HSs internal DHCP server allows LANs to automatically generate an IP address to share the same Internet. Connect an Access Point/WISP wirelessly and connect to LANs using a wired connection. Refer to Chapter 13 to check the Access Points configuration. Client Router Step1 Log in to the Web Configurator with the default IP address 192.168.1.1 Step2 Step3 Step4 Step5 Step6 Step7 Step8 For Operation Mode, select Client Router from System Properties. Change your Local Area Network setting to Obtain an IP Address Automatically. Use site survey to scan Access Points that are available in nearby areas. Select the Access Point with you want to associate. Set up authentication settings that match the Access Points settings. Set your WAN connection type using the WAN settings provided by your ISP. Click Apply to save all changes. Client Routers IP setting must match to the Access Points subnet. Chapter 13 Building a Wireless Network With its ability to operate in various operating modes, your OM2P-LC/OM2P-HS is the ideal device around which you can build your WLAN. This appendix describes how to build a WLAN around your OM2P-LC/OM2P-HS using he devices operating modes. 13.1 Access Point Mode In Access Point Mode, OM2P-LC/OM2P-HS behaves likes a central connection for stations or clients that support IEEE 802.11b/g/n networks. Stations and client must be configured to use the same SSID and security password to associate with the OM2P-LC/OM2P-HS. The OM2P-LC/OM2P-

HS supports four SSIDs at the same time for secure guest access. 13.2 Access Point Mode with WDS Function The OM2P-LC/OM2P-HS Access Point Mode also supports WDS functionality. This operating mode allows wireless connections to the OM2P-LC/OM2P-HS using WDS technology. In this mode, configure the MAC addresses in both Access Points to enlarge the wireless area by enabling WDS Link settings. WDS supports eight AP MAC addresses. Not every Access Point device supports WDS in Access Point Mode. As a result, to use WDS, we recommend you use the OM2P-LC/OM2P-HS. 13.3 Client Bridge Mode In Client Bridge Mode, the OM2P-LC/OM2P-HS behaves like a wireless client that connects to an Access Point wirelessly and allows users to surf the Internet whenever they want. In this mode, use the OM2P-LC/OM2P-HS Site Survey to scan for Access Points within range. Then configure the OM2P-LC/OM2P-HS SSID and security password accordingly to associate with the Access Point. In this configuration, the station has a wired Ethernet connection to the OM2P-

LC/OM2P-HS LAN port. 13.4 WDS Bridge Mode In WDS Bridge Mode, the OM2P-LC/OM2P-HS can wirelessly connect different LANs by configuring the MAC address and security settings of each OM2P-LC/OM2P-HS device. Use this mode when two wired LANs located a small distance apart want to communicate with each other. The best solution is to use the OM2P-LC/OM2P-HS to wirelessly connect two wired LANs, as shown in the following figure. WDS Bridge Mode can establish 16 WDS links, creating a star-like network. WDS Bridge Mode is unlike Access Point. Access Points linked by WDS are using the same frequency channel, more Access Points connected together may lower throughput. Please be aware to avoid loop in your wireless connection, otherwise enable Spanning Tree Function. 13.5 Client Router Mode In Client Router Mode, the OM2P-LC/OM2P-HSs internal DHCP server allows a number of LANs to automatically generate IP addresses to share the same Internet. In this mode, connect an AP/WISP wirelessly and connect to LANs via a wired connection. 13.6 RADIUS Connections Remote Authentication Dial In User Service (RADIUS) authentication is available when configuring the OM2P-LC/OM2P-HS wireless advanced settings (see Chapter 8). Use this feature if you have a RADIUS server. WPA(TKIP), WPA2(AES), and WPA2 Mixed encryption types are also supported. The following figure shows an example of a RADIUS configuration, where two OM2P-

LC/OM2P-HS devices installed at different locations communicate with each other wirelessly. In this configuration, one OM2P-LC/OM2P-HS is configured for Access Point Mode and connected to a RADIUS server via a switch, while the other OM2P-LC/OM2P-HS is configured for Client Bridge Mode. The RADIUS server uses an authentication scheme such as PAP or CHAP to verify a user's identification, along with, optionally, other information related to the request, such as the user's network address or phone number, account status and specific network service access privileges. The RADIUS server then returns one of three responses to the OM2P-LC/OM2P-HS : Access Reject (user is denied access to all requested network resources), Access Challenge (requests additional information from the user such as a secondary password), PIN, token or card), or Access Accept (user is granted access). AppendixATroubleshooting Thisappendixprovidesproblemsolvinginformationyoumayfindusefulincaseyouneedto troubleshootyourOM2PLC/OM2PHS.Italsoincludesinformationaboutcontacting technicalsupport. A.1ProblemSolving Question HowdoIresettheOM2PLC/OM2PHS?

WhydoInotseetrafficpassafterIconnectthe OM2PLC/OM2PHStoaPoEswitch?

WhatisthedefaultIPaddressoftheOM2P IpluggedthePoEtothesecondEthernetport onthebackofOM2PLC/OM2PHSbutthe unitisnoton,howcome?

WhenIinstallthePoEconnectiontotheOM2P LC/OM2PHS,whatkindofPoEshouldIuse?

Iwanttousehighergainantennasonthe OM2PLC/OM2PHS,butIdontknowwhat Iwanttobuyahighgainantennaforthe OM2PLC/OM2PHS,butIdontknowwhat typeofantennaandRFconnectortobuy. 85 Answer TherearetwowaystoresettheOM2P LC/OM2PHS,ahardwaremethodanda softwaremethod.Bothmethodsreturnthe OM2PLC/OM2PHStoitsfactorydefault configuration. Tousethehardwaremethod,openthecover onthebottompaneloftheOM2PLC/OM2P HSandfindtheResetbutton(seesection2.1). Usingaflatobjectsuchasapencil,pressthe Resetbuttonforapproximately10secondsand thenstoppressing. Tousethesoftwaremethod,clickRestoreto TheOM2PLC/OM2PHSusesaproprietaryPoE injectorandwillnotworkwithstandard 802.3afcompliant ThedefaultIPaddressis192.168.1.1 YouneedtoplugtheEthernetcableconnectto PoEinjectortothemainLANport.The secondaryEthernetportisjustanadditional LANportforregularEthernetconnectionsuch asIPcamera TheOM2PLC/OM2PHSusesaproprietaryPoE injectorandwillnotworkwithstandard 802.3afcompliant Usetheantennaappropriateforthefrequency.

(2.4GHz) UseanantennawithaSMAconnectorto connecttotheOM2PLC/OM2PHS. A.2ContactingTechnicalSupport If you encounter issues that cannot be resolved using this manual, please contact your vendor where you purchase the device. If you cannot contact your vendor, you may also contact EnGenius Customer Service department in the region where you purchased the device. Before you contact your local EnGenius office, please prepare the following information:

Product model name and serial number The place where you purchased the product Warranty information The date when you received the product A brief description about the issue and the attempts you tried to resolve it To contact EnGenius Customer Service office in the United States, please use either of the following methods:

Email: Support@EnGeniustech.com Telephone: 1-888-735-7888 AppendixCGlossary AccessPoint A base station in a WLAN that act as a central transmitter and receiver of WLAN radio signals. AdHocNetwork A short-term WLAN framework created between two or more WLAN adapters, without going through an Access Point. An ad hoc network lets computers send data directly to and from one another. For an ad hoc network to work, each computer on the network needs a WLAN card installed configured for Ad Hoc mode. Antenna A device that sends and receives radio-frequency (RF) signals. Often camouflaged on existing buildings, trees, water towers or other tall structures, the size and shape of antennas are generally determined by the frequency of the signal they manage. Authentication A process that verifies the identity of a wireless device or end-user. A common form of authentication is to verify identities by checking a user name and password to allow network access. Backbone Ahighspeedlineorseriesofconnectionsthatformamajorpathwaywithinanetwork. Bandwidth Thepartofthefrequencyspectrumrequiredtotransmitdesiredinformation.Eachradiochannel hasacenterfrequencyandadditionalfrequenciesaboveandbelowthiscarrierfrequencythat carrythetransmittedinformation.Therangeoffrequenciesfromthelowesttothehighestusedis calledthebandwidth. Bridge A wireless device that connects multiple networks that are physically separate or use different media, but which use similar standards. BridgeMode AnAccessPointyinbridgemodecanoperateasaWLANbridgethatconnectstwowirednetwork segments.Thepeerdevicealsomustbeinbridgemode.Thiswirelessbridgeconnectionis equivalenttoaWirelessDistributionSystem(WDS). CHAP ChallengeHandshakeAuthenticationProtocol.Analternativeprotocolthatusesa challenge/responsetechniqueinsteadofsendingpasswordsoverthewire. Collision Interference resulting from two network devices sending data at the same time. The network detects the collision of the two transmitted packets and discards both of them. Coverage The region within which a paging receiver can reliably receive the transmission of paging signals. CoverageArea The geographical area that can be served by a mobile communications network or system. CoverageHole An area within the radio coverage footprint of a wireless system where the RF signal level is below the design threshold. Physical obstructions such as buildings, foliage, hills, tunnels, and indoor parking garages are usually the cause of coverage holes. CyclicRedundancyCheck(CRC) Acommontechniquefordetectingdatatransmissionerrors. DynamicHostConfigurationProtocol(DHCP) A protocol that assigns temporary IP addresses automatically to client stations logging onto an IP network, so the IP addresses do not have to be assigned manually. The OM2P-LC/OM2P-HS contains an internal DHCP server that automatically allocates IP address using a user-defined range of IP addresses. DeadSpot An area within the coverage area of a WLAN where there is no coverage or transmission falling off. Electronic interference or physical barriers such as hills, tunnels, and indoor parking garages are usually the cause of dead spots. See also coverage area. 802.11 A category of WLAN standards defined by the Institute of Electrical and Electronics Engineers

(IEEE). 802.11a An IEEE standard for WLANs that operate at 5 GHz, with data rates up to 54 Mbps. 802.11b An IEEE standard for WLANs that operate at 2.4 GHz, with data rates up to 11 Mbps. 802.11g AnIEEEstandardforWLANsthatoperatesat2.4GHz,withdatarateof300Mbps.Thenew standardalsoraisestheencryptionbartoWPA2.The40HToptioncanbeaddedtoincreasethe datarate. Encryption Translates data into a secret code to achieve data security. To read an encrypted file, you must have a secret key or password for decryption. Unencrypted data is referred to as plain text;

encrypted data is referred to as cipher text ESSID TheuniqueidentifierforanESS.AllAccessPointsandtheirassociatedwirelessstationsinthe samegroupmusthavethesameESSID. Footprint Geographicalareaswhereanentityislicensedtobroadcastitssignal. Gateway Acomputersystemorotherdevicethatactsasatranslatorbetweentwosystemsthatuse differentcommunicationprotocols,dataformattingstructures,languages,and/orarchitecture. HT mode Inthe802.11nsystem,twonewformats,calledHighThroughput(HT),aredefinedforthe PhysicalLayer,MixedMode,andGreenField.Ifasystemruns40HT,twoadjacent20MHz channelsareused.Thelarger40MHzbandwidthcanprovidebettertransmitqualityandspeed. Keys Likepasswords,keysopen(decrypt)andclose(encrypt)messages.Whilemanyencryption algorithmsarecommonlyknownandpublic,thekeymustbekeptsecret. LocalAreaNetwork(LAN) Asmalldatanetworkcoveringalimitedarea,suchasabuildingorgroupofbuildings.MostLANs connectworkstationsorpersonalcomputers.LANsletmanyuserssharedevicessuchasprinters aswellasdata.LANsalsofacilitatecommunicationthroughemailorchatsessions. MediaAccessControl(MAC)Address Addressassociatedwitheveryhardwaredeviceonthenetwork.Every802.11wirelessdevicehas itsownspecificMACaddress.Thisuniqueidentifierishardcodedintothedeviceandcanbe usedtoprovidesecurityforWLANs.WhenanetworkusesaMACtable,onlythe802.11radios thathavetheirMACaddressesaddedtothatnetwork'sMACtablecanaccessthenetwork. NetworkAddressTranslation(NAT) AnInternetstandardthatletsaLANuseonesetofIPaddressesforinternaltrafficandasecond setofaddressesforexternaltraffic. NetworkTimeProtocol(NTP) Aprotocolthatletsdevicessynchronizetheirtimewithatimeserver.NTPusesTCPorUDPport 123bydefault. Passphrase AtextstringthatautomaticallygeneratesWEPkeysonwirelessclientadapters. PowerOverEthernet(PoE) APoEprovidespowertoPoEenableddevicesusingan8pinCAT5Ethernetcable,eliminatingthe needforapowersource. Preamble SynchronizestransmissionsinaWLAN.ThepreambletypedefinesthelengthoftheCyclic RedundancyCheckblockforcommunicationbetweenadeviceandroamingwirelessstations. ProtectedExtensibleAuthentication Protocol(PEAP) AuthenticationprotocolofIEEE802.1xusedtosendauthenticationdataandpasswordsover 802.11WLANs. QualityofService(QoS) Anetworksabilitytodeliverdatawithminimumdelay.QoSalsoreferstothenetworking methodsusedtoprovidebandwidthforrealtimemultimediaapplications. RemoteAuthentication DialInUserService(RADIUS) Networkingprotocolthatprovidescentralizedauthentication,authorization,andaccounting managementforcomputerstoconnectanduseanetworkservice.Becauseofitsbroadsupport andubiquitousnature,theRADIUSprotocolisoftenusedbyISPsandenterprisestomanage accesstotheInternetorinternalnetworks,WLANs,andintegratedemailservices. ServiceSetIdentifier(SSID) NameofaWLAN.AllwirelessdevicesonaWLANmustusethesameSSIDtocommunicatewith eachother. SimpleNetworkManagementProtocol(SNMP) AnInternetstandardprotocolformanagingdevicesonIPnetworks. Snooping Passivelywatchinganetworkfordata,suchaspasswords,thatcanbeusedtobenefitahacker. TemporalKeyIntegrityProtocol(TKIP) Anencryptionprotocolthatuses128bitkeys.Keysaredynamicallygeneratedanddistributedby theauthenticationserver.TKIPregularlychangesandrotatesencryptionkeys,withanencryption keyneverbeingusedtwice. TransmissionControlProtocol/Internet Protocol(TCP/IP) Aprotocolthatallowscommunicationsoverandbetweennetworks.TCP/IPisthebasisfor Internetcommunications. WeightedFairQueuing(WFQ) WFQservicesqueuesarebasedonpriorityandqueueweight.Queueswithlargerweightsget moreservicethanqueueswithsmallerweights.Thishighlyefficientqueuingmechanismdivides availablebandwidthacrossdifferenttrafficqueues. WiredEquivalentPrivacy(WEP) SecurityprotocolthatprovidesaWLANwithalevelofsecurityandprivacycomparabletothatof awiredLAN.WEPencryptsdatasentbetweenwiredandWLANstokeeptransmissionsprivate. WirelessLocalAreaNetwork(WLAN) WLANsuseRFtechnologytosendandreceivedatawirelesslyinacertainarea.Thisletsusersina smallzonesenddataandshareresourcessuchasprinterswithoutusingcablestophysically connecteachcomputer. WiFiProtectedAccess(WPA) AsubsetoftheIEEE802.11istandard.WPAappliesIEEE802.1xandExtensibleAuthentication Protocol(EAP)toauthenticatewirelessclientsusinganexternalRADIUSdatabase.WPAuses TemporalKeyIntegrityProtocol(TKIP),MessageIntegrityCheck(MIC),andIEEE802.1xtoencrypt data.SeealsoWPAPSK(WPAPreSharedKey). WiFiMultiMedia (WMM) PartoftheIEEE802.11eQoSenhancementtotheWiFistandardthatensuresqualityofservice formultimediaapplicationsinWLANs. WirelessClientSupplicants Softwarethatrunsonanoperatingsystem,instructingthewirelessclienthowtouseWPA. WPAPreSharedKey(WPAPSK) WPAPSKrequiresasingle(identical)passwordenteredintoeachAccessPoint,wirelessgateway, andwirelessclient.AclientisgrantedaccesstoaWLANifthepasswordsmatch. WPA2 Awirelesssecuritystandardthatdefinesstrongerencryption,authentication,andkey managementthanWPA.Itincludestwodataencryptionalgorithms,TemporalKeyIntegrity Protocol(TKIP)andAdvancedEncryptionStandard(AES),intheCountermodewithCipherblock chainingMessageauthenticationCodeProtocol(CCMP). WirelessDistributionSystem(WDS) AtechnologythatletsAccessPointscommunicatewithoneanothertoextendtherangeofa WLAN. AppendixDFCCInterferenceStatement FederalCommunicationCommissionInterferenceStatement ThisequipmenthasbeentestedandfoundtocomplywiththelimitsforaClassBdigitaldevice, pursuanttoPart15oftheFCCRules.Theselimitsaredesignedtoprovidereasonableprotection againstharmfulinterferenceinaresidentialinstallation.Thisequipmentgenerates,usesandcan radiateradiofrequencyenergyand,ifnotinstalledandusedinaccordancewiththeinstructions, may cause harmful interferenceto radio communications.However,there is no guaranteethat interference will not occur in a particular installation. If this equipment does cause harmful interferencetoradioortelevisionreception,whichcanbedeterminedbyturningtheequipment off and on, the user is encouraged to try to correct the interference by one of the following measures:

Reorientorrelocatethereceivingantenna. Increasetheseparationbetweentheequipmentandreceiver. Connecttheequipmentintoanoutletonacircuitdifferentfromthat towhichthereceiverisconnected. Consultthedealeroranexperiencedradio/TVtechnicianforhelp. FCCCaution:Anychangesormodificationsnotexpresslyapprovedbythepartyresponsiblefor compliancecouldvoidtheuser'sauthoritytooperatethisequipment. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:(1)Thisdevicemaynotcauseharmfulinterference,and(2)thisdevicemustaccept anyinterferencereceived,includinginterferencethatmaycauseundesiredoperation. IMPORTANTNOTE:

FCCRadiationExposureStatement:

ThisequipmentcomplieswithFCCradiationexposurelimitssetforthforanuncontrolled environment.Thisequipmentshouldbeinstalledandoperatedwithminimumdistance20cm betweentheradiator&yourbody. Thistransmittermustnotbecolocatedoroperatinginconjunctionwithanyotherantennaor transmitter. Copyright 2011 ENGENIUS TECHNOLOGIES, INC., All rights reserved.

		frequency	equipment class	purpose
1	2012-09-19	2412 ~ 2462	DTS - Digital Transmission System	Original Equipment

Application Forms

app s	Applicant Information
1	Effective	2012-09-19
1	Applicant's complete, legal business name	Datto, Inc.
1	FCC Registration Number (FRN)	0026323543
1	Physical Address	101 Merritt 7
1		Norwalk, Connecticut 06851
1		United States

app s	TCB Information
1	TCB Application Email Address	c******@curtis-straus.com
1	TCB Scope	A4: UNII devices & low power transmitters using spread spectrum techniques

app s	FCC ID
1	Grantee Code	WT8
1	Equipment Product Code	OM2PLC

app s	Person at the applicant's address to receive grant or for contact
1	Name	C****** H**
1	Title	Chief Compliance Officer
1	Telephone Number	88829********
1	Fax Number	88829********
1	E-mail	c******@datto.com

app s	Technical Contact
1	Firm Name	Bureau Veritas CPS (H.K.) Ltd. Taoyuan Branch
1	Name	G**** C******
1	Physical Address	No. 19, Hwa Ya 2nd Rd., Kwei Shan Hsiang
1		Taoyuan Hsien, 333
1		Taiwan
1	Telephone Number	886-3******** Extension:
1	Fax Number	886-3********
1	E-mail	g******@tw.bureauveritas.com

app s	Non Technical Contact
1	Firm Name	Bureau Veritas CPS (H.K.) Ltd. Taoyuan Branch
1	Name	C****** C****
1	Physical Address	No. 19, Hwa Ya 2nd Rd., Kwei Shan Hsiang
1		Taoyuan Hsien, 333
1		Taiwan
1	Telephone Number	886-3******** Extension:
1	Fax Number	886-3********
1	E-mail	c******@tw.bureauveritas.com

app s	Confidentiality (long or short term)
1	Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1	Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	No
	if no date is supplied, the release date will be set to 45 calendar days past the date of grant.

app s	Cognitive Radio & Software Defined Radio, Class, etc
1	Is this application for software defined/cognitive radio authorization?	No
1	Equipment Class	DTS - Digital Transmission System
1	Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant)	Wireless 802.11b/g/n Mesh Router
1	Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application?	No
1	Modular Equipment Type	Does not apply
1	Purpose / Application is for	Original Equipment
1	Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization?	No
1	Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization?	No
1	Grant Comments	Output power listed is conducted. End-users and responsible parties must be provided with operating and installation instructions to ensure RF exposure compliance. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. This device has 20 MHz and 40 MHz bandwidth mode.
1	Is there an equipment authorization waiver associated with this application?	No
1	If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded?	No

app s	Test Firm Name and Contact Information
1	Firm Name	Bureau Veritas CPS (H.K.) Ltd. Taoyuan Branch
1	Name	R** C******
1	Telephone Number	886-3******** Extension:
1	Fax Number	886-3********
1	E-mail	r******@tw.bureauveritas.com

Equipment Specifications
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
1	1	15C		2412.00000000	2462.00000000	0.1270000

some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details