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Pepwave MAX User Manual Pepwave Products:
MAX BR2 Pro / BR2 Pro / MAX BR2 Pro LTE / MAX BR2 Pro LTEA / MAX -CX2-Mini / MAX CX2 Mini / CX2 Mini / MAX-BR2-PRO-LTE-E-T / MAX-BR2-PRO-LTE-US-T / MAX-BR2-PRO-
LTEA-W-T / UBR LTE / UBR-LTE-US-T-PRM / MAX UBR LTE / MAX UBR / MAX UBR LTEA / UBR /
Pismo941 / UBR-LTE / UBR-LTE-US-T / UBR-LTEA-W-T / UBR-LTEA-W-T-PRM / MAX BR1 Pro /
MAX BR1 Pro LTE / MAX BR1 Pro LTEA / MAX-BR1-PRO-LTEA-W-T / MAX-BR1-LTE-US-T /
UBR-LTE-EJ-T-PRM Pepwave Firmware 8.0.0 August 2019 Copyright & Trademarks Specifications are subject to change without notice. Copyright 2019 Pepwave Ltd. All Rights Reserved. Pepwave and the Pepwave logo are trademarks of Pepwave Ltd. Other brands or products mentioned may be trademarks or registered trademarks of their respective owners. Table of Contents Introduction and Scope Glossary Product Features Supported Network Features WAN LAN VPN Firewall Captive Portal Outbound Policy AP Controller QoS Other Supported Features Pepwave MAX Mobile Router Overview MAX BR2 Pro Advanced Feature Summary Drop-in Mode and LAN Bypass: Transparent Deployment QoS: Clearer VoIP Per-User Bandwidth Control High Availability via VRRP USB Modem and Android Tethering Built-In Remote User VPN Support SIM-card USSD support Installation Preparation Constructing the Network Configuring the Network Environment Mounting the Unit Wall Mount Car Mount IP67 Installation Guide Connecting to the Web Admin Interface Configuring the LAN Interface(s) 134 13 7 8 9 9 9 10 10 10 10 10 11 11 11 16 16 16 17 17 18 18 19 20 20 20 21 21 21 22 22 22 24 https://www.peplink.com 2 Copyright @ 2019 Pepwave Basic Settings Port Settings Captive Portal Configuring the WAN Interface(s) Ethernet WAN DHCP Connection Static IP Connection PPPoE Connection L2TP Connection Cellular WAN Wi-Fi WAN WAN Health Check Dynamic DNS Settings Advanced Wi-Fi Settings ContentHub Configuration Creating Wi-Fi Connection Profiles ContentHub Configuring the ContentHub Configure a website to be published from the ContentHub Configure an application to be published from the ContentHub MediaFast Configuration Setting Up MediaFast Content Caching Scheduling Content Prefetching Viewing MediaFast Statistics Bandwidth Bonding SpeedFusionTM / PepVPN PepVPN The Pepwave Router Behind a NAT Router SpeedFusionTM Status IPsec VPN IPsec VPN Settings Outbound Policy Management Outbound Policy Custom Rules for Outbound Policy Algorithm: Weighted Balance Algorithm: Persistence Algorithm: Enforced 24 33 34 36 37 40 440 41 43 44 549 57 58 60 62 67 67 67 68 69 71 72 73 76 77 77 83 84 85 85 89 89 91 91 92 94 https://www.peplink.com 3 Copyright @ 2019 Pepwave Algorithm: Priority Algorithm: Overflow Algorithm: Least Used Algorithm: Lowest Latency Expert Mode Inbound Access Port Forwarding Service UPnP / NAT-PMP Settings NAT Mappings QoS User Groups Bandwidth Control Application Application Prioritization Prioritization for Custom Applications DSL/Cable Optimization Firewall Outbound and Inbound Firewall Rules Access Rules Apply Firewall Rules to PepVpn Traffic Intrusion Detection and DoS Prevention Content Blocking Application Blocking Web Blocking Customized Domains Exempted User Groups Exempted Subnets URL Logging OSPF & RIPv2 BGP Remote User Access L2TP with IPsec OpenVPN PPTP Authentication Methods Miscellaneous Settings 94 94 95 95 96 96 96 99 99 101 10001 10102 10102 10102 10103 10203 10204 10305 10305 10608 10608 10709 10709 10709 10810 10810 10810 10810 10810 11214 11416 11517 11517 11618 11618 11820 https://www.peplink.com 4 Copyright @ 2019 Pepwave High Availability Certificate Manager Service Forwarding SMTP Forwarding Web Proxy Forwarding DNS Forwarding Custom Service Forwarding Service Passthrough UART GPS Forwarding Ignition Sensing Ignition Sensing installation GPIO Menu Grouped Networks SIM Toolkit AP - access point AP Controller Wireless SSID Settings AP Controller Status Info Access Point (Usage) Wireless SSID Wireless Client Nearby Device Event Log Toolbox System Settings Admin Security Firmware Time Schedule Email Notification Event Log Web admin interface : automatically check for updates Web admin interface : install updates manually The InControl method https://www.peplink.com 5 Copyright @ 2019 Pepwave 11820 12123 12224 125 12326 12426 12426 12426 12629 12831 12832 12932 13134 13235 13235 13538 13538 13538 13942 14447 14447 146 14851 14952 15053 15154 15255 15356 15356 15660 15660 15761 15862 15962 15963 16064 166 166 168 169 170 170 171 171 171 172 172 173 174 174 175 176 177 178 178 179 179 180 182 184 184 185 186 187 188 191 SNMP InControl Configuration Feature Add-ons Reboot Tools Ping Traceroute Test PepVPN Test Wake-on-LAN CLI (Command Line Interface Support) Status Device GPS Data Active Sessions Client List WINS Client UPnP / NAT-PMP OSPF & RIPv2 BGP SpeedFusion Status Event Log WAN Quality Usage Reports Real-Time 182 Daily Monthly Appendix B: Declaration https://www.peplink.com 6 Copyright @ 2019 Pepwave 1 Introduction and Scope Pepwave routers provide link aggregation and load balancing across multiple WAN connections, allowing a combination of technologies like 3G HSDPA, EVDO, 4G LTE, Wi-Fi, external WiMAX dongle, and satellite to be utilized to connect to the Internet. The MAX wireless SD-WAN router series has a wide range of products suitable for many different deployments and markets. Entry level SD-WAN models such as the MAX BR1 are suitable for SMEs or branch offices. High-capacity SD-WAN routers such as the MAX HD2 are suitable for larger organizations and head offices. This manual covers setting up Pepwave routers and provides an introduction to their features and usage. Want to know more about Pepwave routers? Visit our YouTube Channel for a video introduction!
Tips https://youtu.be/13M-JHRAICA https://www.peplink.com 7 Copyright @ 2019 Pepwave Glossary The following terms, acronyms, and abbreviations are frequently used in this manual:
Term 3G 4G Definition 3rd generation standards for wireless communications (e.g., HSDPA) 4th generation standards for wireless communications (e.g., LTE) DHCP Dynamic Host Configuration Protocol DNS Domain Name System EVDO Evolution-Data Optimized FQDN Fully Qualified Domain Name HSDPA High-Speed Downlink Packet Access HTTP Hyper-Text Transfer Protocol ICMP Internet Control Message Protocol IP Internet Protocol LAN Local Area Network MAC Address Media Access Control Address MTU Maximum Transmission Unit MSS Maximum Segment Size NAT Network Address Translation PPPoE Point to Point Protocol over Ethernet QoS Quality of Service SNMP Simple Network Management Protocol TCP Transmission Control Protocol UDP User Datagram Protocol VPN Virtual Private Network VRRP Virtual Router Redundancy Protocol https://www.peplink.com 8 Copyright @ 2019 Pepwave WAN Wide Area Network WINS Windows Internet Name Service WLAN Wireless Local Area Network 2 Product Features Pepwave routers enable all LAN users to share broadband Internet connections, and they provide advanced features to enhance Internet access. Our Max BR wireless routers support multiple SIM cards. They can be configured to switch from using one SIM card to another SIM card according to different criteria, including wireless network reliability and data usage. Our MAX HD series wireless routers are embedded with multiple 4G LTE modems, and allow simultaneous wireless Internet connections through multiple wireless networks. The wireless Internet connections can be bonded together using our SpeedFusion technology. This allows better reliability, larger bandwidth, and increased wireless coverage are comparing to use only one 4G LTE modem. Below is a list of supported features on Pepwave routers. Features vary by model. For more information, please see peplink.com/products. 2.1 Supported Network Features 2.1.1 WAN Ethernet WAN connection in full/half duplex Static IP support for PPPoE Built-in cellular modems USB mobile connection(s) Wi-Fi WAN connection Network address translation (NAT)/port address translation (PAT) MAC address clone and passthrough Customizable MTU and MSS values WAN connection health check Dynamic DNS (supported service providers: changeip.com, dyndns.org, no-ip.org, Inbound and outbound NAT mapping IPsec NAT-T and PPTP packet passthrough tzo.com and DNS-O-Matic) Ping, DNS lookup, and HTTP-based health check https://www.peplink.com 9 Copyright @ 2019 Pepwave 2.1.2 LAN Wi-Fi AP Ethernet LAN ports DHCP server on LAN Extended DHCP option support Static routing rules VLAN on LAN support 2.1.3 VPN PepVPN with SpeedFusionTM PepVPN performance analyzer X.509 certificate support VPN load balancing and failover among selected WAN connections Bandwidth bonding and failover among selected WAN connections Ability to route Internet traffic to a remote VPN peer Optional pre-shared key setting SpeedFusionTM throughput, ping, and traceroute tests PPTP server PPTP and IPsec passthrough IPsec VPN for network-to-network connections (works with Cisco and Juniper only) 2.1.4 Firewall Inbound (WAN to LAN) firewall rules per WAN connection Intrusion detection and prevention Outbound (LAN to WAN) firewall rules Specification of NAT mappings Outbound firewall rules can be defined by destination domain name 2.1.5 Captive Portal Splash screen of open networks, login page for secure networks Customizable built-in captive portal Supports linking to outside page for captive portal 2.1.6 Outbound Policy Link load distribution per TCP/UDP service Persistent routing for specified source and/or destination IP addresses per TCP/UDP https://www.peplink.com 10 Copyright @ 2019 Pepwave service Traffic prioritization and DSL optimization Prioritize and route traffic to VPN tunnels with Priority and Enforced algorithms 2.1.7 AP Controller Configure and manage Pepwave AP devices Review the status of connected APs 2.1.8 QoS Quality of service for different applications and custom protocols User group classification for different service levels Bandwidth usage control and monitoring on group- and user-level Application prioritization for custom protocols and DSL/cable optimization 2.2 Other Supported Features User-friendly web-based administration interface HTTP and HTTPS support for web admin interface Configurable web administration port and administrator password Firmware upgrades, configuration backups, ping, and traceroute via web admin interface Remote web-based configuration (via WAN and LAN interfaces) Time server synchronization SNMP Email notification Read-only user for web admin Shared IP drop-in mode Authentication and accounting by RADIUS server for web admin Built-in WINS servers*
Syslog SIP passthrough PPTP packet passthrough Event log Active sessions Client list WINS client list *
UPnP / NAT-PMP Real-time, hourly, daily, and monthly bandwidth usage reports and charts https://www.peplink.com 11 Copyright @ 2019 Pepwave IPv6 support Support USB tethering on Android 2.2+ phones
* Not supported on MAX Surf-On-The-Go, and BR1 variants https://www.peplink.com 12 Copyright @ 2019 Pepwave 3 Pepwave MAX Mobile Router Overview 3.1 BR2 Pro 3.1.1 Panel Appearance 3.1.2 LED Indicators The statuses indicated by the front panel LEDs are as follows:
Status Indicators System initializing Booting up or busy Status Blinking red Boot up error Ready OFF Red Green https://www.peplink.com 13 Copyright @ 2019 Pepwave Wi-Fi AP and Wi-Fi WAN Indicators OFF Disconnected Blinking slowly Connecting to network Wi-Fi WAN Blinking Connected to network with traffic Connected to network without traffic Disabled Wi-Fi AP Blinking slowly Enabled but no client connected Connected to network with traffic Client(s) connected to wireless network ON OFF Blinking ON LAN and Ethernet WAN Ports Green LED ON 10 / 100/ 1000 Mbps Orange LED Blinking Data is transferring Port Type Auto MDI/MDI-X ports OFF No data is being transferred or port is not connected https://www.peplink.com 14 Copyright @ 2019 Pepwave 4 Advanced Feature Summary 4.1 Drop-in Mode and LAN Bypass: Transparent Deployment As your organization grows, it needs more bandwidth. But modifying your network would require effort better spent elsewhere. In Drop-in Mode, you can conveniently install your Peplink router without making any changes to your network. And if the Peplink router loses power for any reason, LAN Bypass will safely and automatically bypass the Peplink router to resume your original network connection. Compatible with: MAX 700, MAX HD2 (All variants), HD4 (All Variants) 4.2 QoS: Clearer VoIP VoIP and videoconferencing are highly sensitive to latency. With QoS, Peplink routers can detect VoIP traffic and assign it the highest priority, giving you crystal-clear calls. https://www.peplink.com 15 Copyright @ 2019 Pepwave 4.3 Per-User Bandwidth Control With per-user bandwidth control, you can define bandwidth control policies for up to 3 groups of users to prevent network congestion. Define groups by IP address and subnet, and set bandwidth limits for every user in the group. 4.4 High Availability via VRRP When your organization has a corporate requirement demanding the highest availability with no single point of failure, you can deploy two Peplink routers in High Availability mode. With High Availability mode, the second device will take over when needed. Compatible with: MAX 700, MAX HD2 (All variants), HD4 (All Variants) https://www.peplink.com 16 Copyright @ 2019 Pepwave 4.5 USB Modem and Android Tethering For increased WAN diversity, plug in a USB LTE modem as backup. Peplink routers are compatible with over 200 modem types. You can also tether to smartphones running Android 4.1.X and above. Compatible with: MAX 700, HD2 (all variants except IP67), HD4 (All variants) 4.6 Built-In Remote User VPN Support Use OpenVPN or L2TP with IPsec to safely and conveniently connect remote clients to your private network. L2TP with IPsec is supported by most devices, but legacy devices can also connect using PPTP. Click here for the full instructions on setting up L2TP with IPsec. Click here for the full instructions on setting up OpenVPN connections https://www.peplink.com 17 Copyright @ 2019 Pepwave 4.7 SIM-card USSD support Cellular-enabled routers can now use USSD to check their SIM cards balance, process pre-
paid cards, and configure carrier-specific services. Click here for full instructions on using USSD. https://www.peplink.com 18 Copyright @ 2019 Pepwave 5 Installation The following section details connecting Pepwave routers to your network. 5.1 Preparation Before installing your Pepwave router, please prepare the following as appropriate for your installation:
At least one Internet/WAN access account and/or Wi-Fi access information Depending on network connection type(s), one or more of the following:
Ethernet WAN: A 10/100/1000BaseT UTP cable with RJ45 connector USB: A USB modem Embedded modem: A SIM card for GSM/HSPA service Wi-Fi WAN: Wi-Fi antennas PC Card/Express Card WAN: A PC Card/ExpressCard for the corresponding card slot A computer installed with the TCP/IP network protocol and a supported web browser. Supported browsers include Microsoft Internet Explorer 11 or above, Mozilla Firefox 24 or above, Apple Safari 7 or above, and Google Chrome 18 or above. 5.2 Constructing the Network At a high level, construct the network according to the following steps:
1. With an Ethernet cable, connect a computer to one of the LAN ports on the Pepwave router. Repeat with different cables for up to 4 computers to be connected. 2. With another Ethernet cable or a USB modem/Wi-Fi antenna/PC Card/Express Card, connect to one of the WAN ports on the Pepwave router. Repeat the same procedure for other WAN ports. 3. Connect the power adapter to the power connector on the rear panel of the Pepwave router, and then plug it into a power outlet. https://www.peplink.com 19 Copyright @ 2019 Pepwave The following figure schematically illustrates the resulting configuration:
5.3 Configuring the Network Environment To ensure that the Pepwave router works properly in the LAN environment and can access the Internet via WAN connections, please refer to the following setup procedures:
LAN configuration WAN configuration For basic configuration, refer to Section 8, Connecting to the Web Admin Interface. For advanced configuration, go to Section 9, Configuring the LAN Interface(s). For basic configuration, refer to Section 8, Connecting to the Web Admin Interface. For advanced configuration, go to Section 9.2, Captive Portal. 6 Mounting the Unit 6.1 Wall Mount The Pepwave MAX 700/HD2/On-The-Go can be wall mounted using screws. After adding the screw on the wall, slide the MAX in the screw hole socket as indicated below. Recommended screw specification: M3.5 x 20mm, head diameter 6mm, head thickness 2.4mm. The Pepwave MAX BR1 requires four screws for wall mounting. https://www.peplink.com 20 Copyright @ 2019 Pepwave 6.2 Car Mount The Pepwave MAX700/HD2 can be mounted in a vehicle using the included mounting brackets. Place the mounting brackets by the two sides and screw them onto the device. 6.3 IP67 Installation Guide Installation instructions for IP67 devices can be found here:
http://download.peplink.com/manual/IP67_Installation_Guide.pdf 7 Connecting to the Web Admin Interface 1. Start a web browser on a computer that is connected with the Pepwave router through 2. To connect to the routers web admin interface, enter the following LAN IP address in the the LAN. address field of the web browser:
http://192.168.50.1
(This is the default LAN IP address for Pepwave routers.) 3. Enter the following to access the web admin interface. Username: admin Password: admin
(This is the default username and password for Pepwave routers. The admin and read-only user passwords can be changed at System>Admin Security.) 4. After successful login, the Dashboard will be displayed https://www.peplink.com 21 Copyright @ 2019 Pepwave The Dashboard shows current WAN, LAN, and Wi-Fi AP statuses. Here, you can change WAN connection priority and switch on/off the Wi-Fi AP. For further information on setting up these connections, please refer to Sections 8 and 9. Device Information displays details about the device, including model name, firmware version, and uptime. For further information, please refer to Section 22. Important Note Configuration changes (e.g. WAN, LAN, admin settings, etc.) will take effect only after clicking the Save button at the bottom of each page. The Apply Changes button causes the changes to be saved and applied. https://www.peplink.com 22 Copyright @ 2019 Pepwave 8 Configuring the LAN Interface(s) 8.1 Basic Settings LAN interface settings are located at Network>LAN>Network Settings. Navigating to that page will show the following dashboard:
This represents the LAN interfaces that are active on your router (including VLAN). A grey X means that the VLAN is used in other settings and cannot be deleted. You can find which settings are using the VLAN by hovering over the grey X. Alternatively, a red X means that there are no settings using the VLAN. You can delete that VLAN by clicking the red X Clicking on any of the existing LAN interfaces (or creating a new one) will show the following :
IP Address The IP address and subnet mask of the Pepwave router on the LAN. IP Settings https://www.peplink.com 23 Copyright @ 2019 Pepwave Network Settings Name Enter a name for the LAN. Enter a number for your VLAN. VLAN ID Inter-VLAN routing Check this box to enable routing between virtual LANs. Layer 2 PepVPN Bridging PepVPN Profiles to Bridge The remote network of the selected PepVPN profiles will be bridged with this local LAN, creating a Layer 2 PepVPN, they will be connected and operate like a single LAN, and any broadcast or multicast packets will be sent over the VPN. Remote Network Isolation Enable this option if you want to block network traffic between the remote networks, this will not affect the connectivity between them and this local LAN. Spanning Tree Protocol Click the box will enable STP for this layer 2 profile bridge. Override IP Address when bridge Select "Do not override" if the LAN IP address and local DHCP server should remain unchanged after the Layer 2 PepVPN is up. If you choose to override IP address when the VPN is connected, the device will https://www.peplink.com 24 Copyright @ 2019 Pepwave connected not act as a router, and most Layer 3 routing functions will cease to work. DHCP Option 82 Click on the question Mark if you want to enable DHCP Option 82. This allows the device to inject Option 82 with Router Name information before forwarding the DHCP Request packet to a PepVPN peer, such that the DHCP Server can identify where the request originates from. DHCP Server Settings DHCP Server DHCP Server Logging IP Range &
Subnet Mask Lease Time When this setting is enabled, the DHCP server automatically assigns an IP address to each computer that is connected via LAN and configured to obtain an IP address via DHCP. The Pepwave routers DHCP server can prevent IP address collision on the LAN. Enable logging of DHCP events in the eventlog by selecting the checkbox. These settings allocate a range of IP addresses that will be assigned to LAN computers by the Pepwave routers DHCP server. This setting specifies the length of time throughout which an IP address of a DHCP client remains valid. Upon expiration of the lease time, the assigned IP address will no longer be valid and renewal of the IP address assignment will be required. DNS Servers This option allows you to input the DNS server addresses to be offered to DHCP clients. If Assign DNS server automatically is selected, the Pepwave routers built-in DNS server address (i.e., LAN IP address) will be offered. WINS Servers This option allows you to optionally specify a Windows Internet Name Service
(WINS) server. You may choose to use the built-in WINS server or external WINS servers. When this unit is connected using SpeedFusionTM, other VPN peers can share https://www.peplink.com 25 Copyright @ 2019 Pepwave this unit's built-in WINS server by entering this unit's LAN IP address in their DHCP WINS Server setting. Afterward, all PC clients in the VPN can resolve the NetBIOS names of other clients in remote peers. If you have enabled this option, a list of WINS clients will be displayed at Status>WINS Clients. BOOTP Check this box to enable BOOTP on older networks that still require it. Extended DHCP Option DHCP Reservation In addition to standard DHCP options (e.g., DNS server address, gateway address, subnet mask), you can specify the value of additional extended DHCP options, as defined in RFC 2132. With these extended options enabled, you can pass additional configuration information to LAN hosts. To define an extended DHCP option, click the Add button, choose the option to define and enter its value. For values that are in IP address list format, you can enter one IP address per line in the provided text area input control. Each option can be defined once only. This setting reserves the assignment of fixed IP addresses for a list of computers on the LAN. The computers to be assigned fixed IP addresses on the LAN are identified by their MAC addresses. The fixed IP address assignment is displayed as a cross-reference list between the computers names, MAC addresses, and fixed IP addresses. Name (an optional field) allows you to specify a name to represent the device. MAC addresses should be in the format of 00:AA:BB:CC:DD:EE. Press create a new record. Press can be imported from the Client List, located at Status>Client List. For more details, please refer to Section 22.3. to to remove a record. Reserved client information LAN Physical Settings Speed This is the port speed of the LAN interface. It should be set to the same speed as the connected device to avoid port negotiation problems. When a static speed is set, you may choose whether to advertise its speed to the peer device. Auto is selected by default. You can choose not to advertise the port speed if the port has difficulty negotiating with the peer device. https://www.peplink.com 26 Copyright @ 2019 Pepwave Static Route Settings Static Route This table is for defining static routing rules for the LAN segment. A static route consists of the network address, subnet mask, and gateway address. The address and subnet mask values are in w.x.y.z format. The local LAN subnet and subnets behind the LAN will be advertised to the VPN. Remote routes sent over the VPN will also be accepted. Any VPN member will be able to route to the local subnets. Press to remove a route. to create a new route. Press WINS Server Settings Enable Check the box to enable the WINS server. A list of WINS clients will be displayed at Status>WINS Clients. https://www.peplink.com 27 Copyright @ 2019 Pepwave DNS Proxy Settings Enable DNS Caching To enable the DNS proxy feature, check this box, and then set up the feature at Network>LAN>DNS Proxy Settings. A DNS proxy server can be enabled to serve DNS requests originating from LAN/PPTP/SpeedFusionTM peers. Requests are forwarded to the DNS servers/resolvers defined for each WAN connection. This field is to enable DNS caching on the built-in DNS proxy server. When the option is enabled, queried DNS replies will be cached until the records TTL has been reached. This feature can help improve DNS lookup time. However, it cannot return the most up-to-date result for those frequently updated DNS records. By default, DNS Caching is disabled. Include Google Public DNS Servers When this option is enabled, the DNS proxy server will also forward DNS requests to Google's Public DNS Servers, in addition to the DNS servers defined in each WAN. This could increase the DNS service's availability. This setting is disabled by default. Local DNS Records DNS Resolvers A This table is for defining custom local DNS records. A static local DNS record consists of a host name and IP address. When looking up the host name from the LAN to LAN IP of the Pepwave router, the corresponding IP address will be returned. Press to create a new record. Press to remove a record. Check the box to enable the WINS server. A list of WINS clients will be displayed at Network>LAN>DNS Proxy Settings>DNS Resolvers. This field specifies which DNS resolvers will receive forwarded DNS requests. If no WAN/VPN/LAN DNS resolver is selected, all of the WANs DNS resolvers will be selected. https://www.peplink.com 28 Copyright @ 2019 Pepwave If a SpeedFusionTM peer is selected, you may enter the VPN peers DNS resolver IP address(es). Queries will be forwarded to the selected connections resolvers. If all of the selected connections are down, queries will be forwarded to all resolvers on healthy WAN connections. A - Advanced feature, please click the button on the top right hand corner to activate. Finally, if needed, configure Bonjour forwarding, Apples zero configuration networking protocol. Once VLAN configuration is complete, click Save to store your changes. Bonjour Forwarding Settings Enable Check this box to turn on Bonjour forwarding. Bonjour Service Choose Service and Client networks from the drop-down menus, and then click to add the networks. To delete an existing Bonjour listing, click
. To enable VLAN configuration, click the button in the IP Settings section. To add a new LAN, click the New LAN button. To change LAN settings, click the name of the LAN to change under the LAN heading. The following settings are displayed when creating a new LAN or editing an existing LAN. https://www.peplink.com 29 Copyright @ 2019 Pepwave IP Settings Enter the Pepwave routers IP address and subnet mask values to be used on IP Address &
Subnet Mask the LAN. Network Settings Name Enter a name for the LAN. Enter a number for your VLAN. VLAN ID Inter-VLAN routing Check this box to enable routing between virtual LANs. Captive Portal Check this box to turn on captive portals. DHCP Server Settings DHCP Server When this setting is enabled, the Pepwave routers DHCP server automatically assigns an IP address to each computer that is connected via LAN and configured to obtain an IP address via DHCP. The Pepwave routers DHCP server can https://www.peplink.com 30 Copyright @ 2019 Pepwave prevent IP address collisions on the LAN. To enable DHCP bridge relay, please click the icon on this menu item. IP Range &
Subnet Mask These settings allocate a range of IP addresses that will be assigned to LAN computers by the Pepwave routers DHCP server. Lease Time This setting specifies the length of time throughout which an IP address of a DHCP client remains valid. Upon expiration of Lease Time, the assigned IP address will no longer be valid and the IP address assignment must be renewed. DNS Servers This option allows you to input the DNS server addresses to be offered to DHCP clients. If Assign DNS server automatically is selected, the Pepwave routers built-in DNS server address (i.e., LAN IP address) will be offered. WINS Servers This option allows you to specify the Windows Internet Name Service (WINS) server. You may choose to use the built-in WINS server or external WINS servers. When this unit is connected using SpeedFusionTM, other VPN peers can share this unit's built-in WINS server by entering this unit's LAN IP address in their DHCP WINS Servers setting. Therefore, all PC clients in the VPN can resolve the NetBIOS names of other clients in remote peers. If you have enabled this option, a list of WINS clients will be displayed at Status>WINS Clients. BOOTP Check this box to enable BOOTP on older networks that still require it. Extended DHCP Option DHCP Reservation In addition to standard DHCP options (e.g. DNS server address, gateway address, subnet mask), you can specify the value of additional extended DHCP options, as defined in RFC 2132. With these extended options enabled, you can pass additional configuration information to LAN hosts. To define an extended DHCP option, click the Add button, choose the option to define, and then enter its value. For values that are in IP address list format, you can enter one IP address per line in the provided text area input control. Each option can be defined once only. This setting reserves the assignment of fixed IP addresses for a list of computers on the LAN. The computers to be assigned fixed IP addresses on the LAN are identified by their MAC addresses. The fixed IP address assignment is displayed as a cross-reference list between the computers names, MAC addresses, and fixed IP addresses. Name (an optional field) allows you to specify a name to represent the device. MAC addresses should be in the format of 00:AA:BB:CC:DD:EE. Press create a new record. Press can be imported from the Client List, located at Status>Client List. For more details, please refer to Section 22.3. to remove a record. Reserved clients information to To configure DHCP relay, first click the display the settings. button found next to the DHCP Server option to https://www.peplink.com 31 Copyright @ 2019 Pepwave DHCP Relay Settings Enable Check this box to turn on DHCP relay. Click the icon to disable DHCP relay. DHCP Server IP Address Enter the IP addresses of one or two DHCP servers in the provided fields. The DHCP servers entered here will receive relayed DHCP requests from the LAN. For active-passive DHCP server configurations, enter active and passive DHCP server relay IP addresses in DHCP Server 1 and DHCP Server 2. DHCP Option 82 DHCP Option 82 includes device information as relay agent for the attached client when forwarding DHCP requests from client to server. This option also embeds the devices MAC address and network name in circuit and remote IDs. Check this box to enable DHCP Option 82. Once DHCP is set up, configure LAN Physical Settings, Static Route Settings, WINS Server Settings, and DNS Proxy Settings as noted above. 8.2 Port Settings To configure port settings, navigate to Network > Port Settings On this screen, you can enable specific ports, as well as determine the speed of the LAN ports, whether each port is a trunk or access port, can well as which VLAN each link belongs to, if any. 8.3 Captive Portal The captive portal serves as a gateway that clients have to pass if they wish to access the internet using your router. To configure, navigate to Network>LAN>Captive Portal. https://www.peplink.com 32 Copyright @ 2019 Pepwave Captive Portal Settings Enable Check Enable and then, optionally, select the LANs/VLANs that will use the captive portal. Hostname To customize the portals form submission and redirection URL, enter a new URL in this field. To reset the URL to factory settings, click Default. Access Mode Click Open Access to allow clients to freely access your router. Click User Authentication to force your clients to authenticate before accessing your router. This authenticates your clients through a RADIUS server. After selecting this option, you will see the following fields:
RADIUS Server LDAP Server Fill in the necessary information to complete your connection to the server and enable authentication. This authenticates your clients through a LDAP server. Upon selecting this option, you will see the following fields:
https://www.peplink.com 33 Copyright @ 2019 Pepwave Fill in the necessary information to complete your connection to the server and enable authentication. Access Quota Set a time and data cap to each users Internet usage. Quota Reset Time This menu determines how your usage quota resets. Setting it to Daily will reset it at a specified time every day. Setting a number of minutes after quota reached establish a timer for each user that begins after the quota has been reached. Allowed Networks Add networks that can bypass the captive Portal in this field. To whitelist a network, enter the domain name / IP address here and click
. To delete an existing network from the list of allowed networks, click the button next to the listing. Allowed Clients Add MAC address and /or IP addresses for client devices that are allowed to bypass the Captive Portal. Clients accessing these domains and IP addresses will not be redirected to the splash page. Splash Page Here, you can choose between using the Pepwave routers built-in captive portal and redirecting clients to a URL you define. The Portal Customization menu has two options:
displays a pop-up previewing the captive portal that your clients will see. Clicking displays the following menu:
. Clicking and https://www.peplink.com 34 Copyright @ 2019 Pepwave Portal Customization Logo Image Click the Choose File button to select a logo to use for the built-in portal. Message If you have any additional messages for your users, enter them in this field. If you would like to use your own set of terms and conditions, please enter them here. If left empty, the built-in portal will display the default terms and conditions. Fill in this field to redirect clients to an external URL. Terms &
Conditions Custom Landing Page 9 Configuring the WAN Interface(s) WAN Interface settings are located at Network>WAN. To reorder WAN priority, drag on the appropriate WAN by holding the left mouse button, move it to the desired priority (the first one would be the highest priority, the second one would be lower priority, and so on), and drop it by releasing the mouse button. https://www.peplink.com 35 Copyright @ 2019 Pepwave To disable a particular WAN connection, drag on the appropriate WAN by holding the left mouse button, move it the Disabled row, and drop it by releasing the mouse button. You can also set priorities on the Dashboard. Click the Details button in the corresponding row to modify the connection setting. Connection details will be changed and become effective immediately after clicking the Save and Apply button. Important Note 9.1 Ethernet WAN Health Check Settings Health Check Method This field specifies the Health Check method to be used for this WAN connection. Disabled - The WAN connection is always considered to be up and will not be treated as down for any IP routing errors. https://www.peplink.com 36 Copyright @ 2019 Pepwave PING - ICMP PING packets will be issued to test connectivity with configurable target IP addresses or host names. DNS Lookup - DNS lookups will be issued to test the connectivity with configurable target DNS server IP addresses. HTTP - HTTP connections will be issued to test the connectivity with configurable URLs and strings to match. Default: DNS Lookup These fields are for specifying the target IP addresses or host names where ICMP Ping packets will be sent to for health check. PING Hosts If the box Use first two DNS servers as PING Hosts is checked, the first two DNS servers will be the ping targets for checking the connection healthiness. If the box is not checked, the field Host 1 must be filled and the field Host 2 is optional. The connection is considered to be up if ping responses are received from any one of the ping hosts. Timeout If a health check test cannot be completed within the specified amount of time, the test will be treated as failed. Health Check Interval Health Check Retries This is the time interval between each health check test. This is the number of consecutive check failures before treating a connection as down. Recovery Retries This is the number of responses required after a health check failure before treating a connection as up again. Bandwidth Allowance Monitor Settings Bandwidth Check the box Enable to enable bandwidth usage monitoring on this WAN https://www.peplink.com 37 Copyright @ 2019 Pepwave Allowance Monitor connection for each billing cycle. When this option is not enabled, bandwidth usage of each month is still being tracked but no action will be taken. If Email Notification is enabled, you will receive an email notification when usage hits 75% and 95% of the monthly allowance. If the box Disconnect when usage hits 100% of monthly allowance is checked, this WAN connection will be disconnected automatically when the usage hits the monthly allowance. It will not resume unless this option has been turned off or the usage has been reset when a new billing cycle starts. This option allows you to select which day of the month a billing cycle starts. This field is to specify the bandwidth allowance for each billing cycle. Action Start Day Monthly Allowance If you have access to status public IP addresses, you can assign them on this field. Additional Public IP Settings Dynamic DNS Settings This setting specifies the dynamic DNS service provider to be used for the WAN based on supported dynamic DNS service providers:
Dynamic DNS Service Provider changeip.com dyndns.org no-ip.org tzo.com DNS-O-Matic Select Disabled to disable this feature. See Section 9.5 for configuration details. https://www.peplink.com 38 Copyright @ 2019 Pepwave 9.1.1 DHCP Connection There are four possible connection methods:
1. DHCP 2. Static IP 3. PPPoE 4. L2TP The DHCP connection method is suitable if the ISP provides an IP address automatically using DHCP (e.g., satellite modem, WiMAX modem, cable, Metro Ethernet, etc.). DHCP Connection Settings NAT allows substituting the real address in a packet with a mapped address that is routable on the destination network. By clicking the help icon in this field, you can display the IP Forwarding option, if your network requires it. This information is obtained from the ISP automatically. Routing Mode IP Address/ Subnet Mask/ Default Gateway Hostname
(Optional) If your service provider's DHCP server requires you to supply a hostname value upon acquiring an IP address, you may enter the value here. If your service provider does not provide you with the value, you can safely bypass this option. DNS Servers Each ISP may provide a set of DNS servers for DNS lookups. This setting specifies the DNS (Domain Name System) servers to be used when a DNS lookup is routed through this connection. Selecting Obtain DNS server address automatically results in the DNS servers being assigned by the WAN DHCP server to be used for outbound DNS lookups over the connection. (The DNS servers are obtained along with the WAN IP address assigned from the DHCP server.) When Use the following DNS server address(es) is selected, you may https://www.peplink.com 39 Copyright @ 2019 Pepwave enter custom DNS server addresses for this WAN connection into the DNS Server 1 and DNS Server 2 fields. 9.1.2 Static IP Connection The static IP connection method is suitable if your ISP provides a static IP address to connect directly. Static IP Settings Routing Mode IP Address /
Subnet Mask /
Default Gateway DNS Servers NAT allows substituting the real address in a packet with a mapped address that is routable on the destination network. By clicking the help icon in this field, you can display the IP Forwarding option, if your network requires it. These settings allow you to specify the information required in order to communicate on the Internet via a fixed Internet IP address. The information is typically determined by and can be obtained from the ISP. Each ISP may provide a set of DNS servers for DNS lookups. This setting specifies the DNS (Domain Name System) servers to be used when a DNS lookup is routed through this connection. Selecting Obtain DNS server address automatically results in the DNS servers being assigned by the WAN DHCP server to be used for outbound DNS lookups over the connection. (The DNS servers are obtained along with the WAN IP address assigned from the DHCP server.) When Use the following DNS server address(es) is selected, you may enter custom DNS server addresses for this WAN connection into the DNS Server 1 and DNS Server 2 fields. 9.1.3 PPPoE Connection This connection method is suitable if your ISP provides a login ID/password to connect via PPPoE. https://www.peplink.com 40 Copyright @ 2019 Pepwave PPPoE Settings NAT allows substituting the real address in a packet with a mapped address that is routable on the destination network. By clicking the help icon in this field, you can display the IP Forwarding option, if your network requires it. This information is obtained from the ISP automatically. Routing Mode IP Address /
Subnet Mask /
Default Gateway PPPoE Username /
Password Enter the required information in these fields in order to connect via PPPoE to the ISP. The parameter values are determined by and can be obtained from the ISP. Confirm PPPoE Password Verify your password by entering it again in this field. Service Name
(Optional) Service name is provided by the ISP. Note: Leave this field blank unless it is provided by your ISP. IP Address
(Optional) If your ISP provides a PPPoE IP address, enter it here. Note: Leave this field blank unless it is provided by your ISP. DNS Servers Each ISP may provide a set of DNS servers for DNS lookups. This setting specifies the DNS (Domain Name System) servers to be used when a DNS lookup is routed through this connection. Selecting Obtain DNS server address automatically results in the DNS servers being assigned by the WAN DHCP server to be used for outbound DNS lookups over the connection. (The DNS servers are obtained along with the WAN IP address assigned from the DHCP server.) When Use the following DNS server address(es) is selected, you may enter custom DNS server addresses for this WAN connection into the DNS Server 1 and DNS Server 2 fields. https://www.peplink.com 41 Copyright @ 2019 Pepwave 9.1.4 L2TP Connection L2TP has all the compatibility and convenience of PPTP with greater security. Combine this with IPsec for a good balance between ease of use and security. L2TP Settings L2TP Username /
Password Enter the required information in these fields in order to connect via L2TP to your ISP. The parameter values are determined by and can be obtained from your ISP. Confirm L2TP Password Verify your password by entering it again in this field. Server IP Address / Host L2TP server address is a parameter which is provided by your ISP. Note: Leave this field blank unless it is provided by your ISP. Address Type Your ISP will also indicate whether the server IP address is Dynamic or Static. Please click the appropriate value. Each ISP may provide a set of DNS servers for DNS lookups. This setting specifies the DNS (Domain Name System) servers to be used when a DNS lookup is routed through this connection. Selecting Obtain DNS server address automatically results in the DNS servers assigned by the PPPoE server to be used for outbound DNS lookups over the WAN connection.
(The DNS servers are obtained along with the WAN IP address assigned from DNS Servers https://www.peplink.com 42 Copyright @ 2019 Pepwave the PPPoE server.) 9.2 Cellular WAN When Use the following DNS server address(es) is selected, you can enter custom DNS server addresses for this WAN connection into the DNS server 1 and DNS server 2 fields. To access cellular WAN settings, click Network>WAN>Details. Cellular Status IMSI This is the International Mobile Subscriber Identity which uniquely identifies the SIM card. This is applicable to 3G modems only. MEID Some Pepwave routers support both HSPA and EV-DO. For Sprint or Verizon Wireless EV-DO users, a unique MEID identifier code (in hexadecimal format) is used by the carrier to associate the EV-DO device with the user. This information is presented in hex and decimal format. https://www.peplink.com 43 Copyright @ 2019 Pepwave ESN IMEI This serves the same purpose as MEID HEX but uses an older format. This is the unique ID for identifying the modem in GSM/HSPA mode. Connection Settings WAN Connection Name Indicate a name you wish to give this WAN connection Enable Click the checkbox to toggle the on and off state of this connection. Routing Mode This option allows you to select the routing method to be used in routing IP frames via the WAN connection. The mode can be either NAT (Network Address Translation) or IP Forwarding. In the case if you need to choose IP Forwarding for your scenario. Click the enable IP Forwarding. button to Subnet Selection Choose between:
Auto: The subnet mask will be set automatically. Force /31 Subnet: The subnet mask will be set as 255.255.255.254(/31), and the gateway IP address will be recalculated. Connection Priority This option allows you to configure the WAN connection whether for normal daily usage or as a backup connection only. If Always-on is chosen, the WAN connection will be kept on continuously, regardless of the priority of other WAN connections. https://www.peplink.com 44 Copyright @ 2019 Pepwave If Backup is chosen, the WAN connection will depend on other WAN connections. It will not be used when one or more higher priority dependent WAN connections are connected. Independent from Backup WANs If this is checked, the connection will be working independent from other Backup WAN connections. Those in Backup Priority will ignore the status of this WAN connection, and will be used when none of the other higher priority connections are available. Idle Disconnect If this is checked, the connection will disconnect when idle after the configured Time value. This option is disabled by default. DNS Servers Each ISP may provide a set of DNS servers for DNS lookups. This setting specifies the DNS (Domain Name System) servers to be used when a DNS lookup is routed through this connection. Selecting Obtain DNS server address automatically results in the DNS servers assigned by the WAN DHCP server being used for outbound DNS lookups over the connection. (The DNS servers are obtained along with the WAN IP address assigned by the DHCP server.) When Use the following DNS server address(es) is selected, you may enter custom DNS server addresses for this WAN connection into the DNS server 1 and DNS server 2 fields. https://www.peplink.com 45 Copyright @ 2019 Pepwave Cellular Settings SIM Card Indicate which SIM card this cellular WAN will use. Only applies to cellular WAN with redundant SIM cards. Preferred SIM Card If both cards were enabled on the above field, then you can designate the priority of the SIM card slots here. LTE/3G This drop-down menu allows restricting cellular to particular band. Click the button to enable the selection of specific bands. Optimal Network Discovery Cellular WAsN by default will only handover from 3G to LTE network when there is no active data traffic, enable this option will make it run the handover procedures after fallback to 3G for a defined effective period, even this may interrupt the connectivity for a short while. Band Selection When set to Auto, band selection allows for automatically connecting to available, supported bands (frequencies) . When set to Manual, you can manually select the bands (frequencies) the SIM will connect to. Data Roaming This checkbox enables data roaming on this particular SIM card. When data roaming is enabled this option allows you to select in which countries the SIM has a data connection. The option is configured by using MMC (country) codes.Please check your service providers data roaming policy before proceeding. Authentication Choose from PAP Only or CHAP Only to use those authentication methods exclusively. Select Auto to automatically choose an authentication method. This setting alloes allows you to configure the APN settings of your connection. If Auto is selected, the mobile operator should be detected automatically. The connected device will be configured and connection will be made automatically. If there is any difficulty in making connection, you may select Custom to enter your carriers APN, Login, Password, and Dial Number settings manually. The correct values can be obtained from your carrier. The default and recommended setting is Auto. When Auto is selected, the information in these fields will be filled automatically. Select Custom to customize these parameters. The parameter values are determined by and can be obtained from the ISP. Check the box Enable to enable bandwidth usage monitoring on this WAN connection for each billing cycle. When this option is not enabled, bandwidth usage of each month is still being tracked but no action will be taken. Operator Settings APN / Login /
Password /
SIM PIN Bandwidth Allowance Monitor https://www.peplink.com 46 Copyright @ 2019 Pepwave Action If email notification is enabled, you will be notified by email when usage hits 75% and 95% of the monthly allowance. If Disconnect when usage hits 100% of monthly allowance is checked, this WAN connection will be disconnected automatically when the usage hits the monthly allowance. It will not resume connection unless this option has been turned off or the usage has been reset when a new billing cycle starts. Start Day This option allows you to define which day of the month each billing cycle begins. Monthly Allowance This field is for defining the maximum bandwidth usage allowed for the WAN connection each month. Signal Threshold Settings If signal threshold is defined, this connection will be treated as down when a weaker than threshold signal is determined. The following values are used by the threshold scale:
To define the threshold manually using specific signal strength values, please click on the question Mark and the following field will be visible. General Settings Independent from Backup WANs If this is checked, the connection will be working independent from other Backup WAN connections. Those in Backup Priority will ignore the status of this WAN connection, and will be used when none of the other higher priority connections are available. Standby State This option allows you to choose whether to remain connected or disconnected when this WAN connection is no longer in the highest priority and has entered the standby https://www.peplink.com 47 Copyright @ 2019 Pepwave state. When Remain connected is chosen, bringing up this WAN connection to active makes it immediately available for use. Idle Disconnect When Internet traffic is not detected within the user-specified timeframe, the modem will automatically disconnect. Once the traffic is resumed by the LAN host, the connection will be re-activated. Health Check Settings Health Check Method This setting allows you to specify the health check method for the cellular connection. Available options are Disabled, Ping, DNS Lookup, HTTP, and SmartCheck. The default method is DNS Lookup. See Section 10.4 for configuration details. Timeout If a health check test cannot be completed within the specified amount of time, the test will be treated as failed. This is the time interval between each health check test. This is the number of consecutive check failures before treating a connection as down. Recovery Retries This is the number of responses required after a health check failure before treating a connection as up again. Health Check Interval Health Check Retries Dynamic DNS Settings This setting specifies the dynamic DNS service provider to be used for the WAN based on supported dynamic DNS service providers:
Dynamic DNS Service Provider changeip.com dyndns.org no-ip.org https://www.peplink.com 48 Copyright @ 2019 Pepwave tzo.com DNS-O-Matic Select Disabled to disable this feature. See Section 9.5 for configuration details. MTU MTU This field is for specifying the Maximum Transmission Unit value of the WAN connection. An excessive MTU value can cause file downloads stall shortly after connected. You may consult your ISP for the connection's MTU value. 9.3 Wi-Fi WAN To access Wi-Fi WAN settings, click Network>WAN>Details. WAN Connection Settings Enter a name to represent this WAN connection. WAN Connection Name Operating Schedule Click the drop-down menu to apply a time schedule to this interface. Independent from Backup WANs If this is checked, the connection will be working independent from other Backup WAN connections. Those in Backup Priority will ignore the status of this WAN connection, and will be used when none of the other higher priority connections are available. https://www.peplink.com 49 Copyright @ 2019 Pepwave Standby State This setting specifies the state of the WAN connection while in standby. The available options are Remain Connected (hot standby) and Disconnect (cold standby). MTU This setting specifies the maximum transmission unit. By default, MTU is set to Custom 1440. You may adjust the MTU value by editing the text field. Click Default to restore the default MTU value. Select Auto and the appropriate MTU value will be automatically detected. The auto-detection will run each time the WAN connection establishes Reply to ICMP PING If this setting is disabled, the WAN connection will not respond to ICMP ping requests. By default, this setting is enabled. Wi-Fi WAN Settings Channel Width Select the channel width for this Wi-Fi WAN. 20MHz will have greater support for older devices using 2.4Ghz, while 40MHz is appropriate for networks with newer devices that connect using 5Ghz Determine whether the channel will be automatically selected. If you select custom, the following table will appear:
Channel Selection Data Rate Selecting Auto will enable the router to automatically determine the best data rate, while manually selecting a rate will force devices to connect using the fixed rate. Output Power If you are setting up a network with many Wi-Fi devices in close proximity, then you https://www.peplink.com 50 Copyright @ 2019 Pepwave can configure the output power here. Click the boost button for additional power. However, with that option ticked, output power may exceed local regulatory limits. Roaming Checking this box will enable Wi-Fi roaming. Click the options. icon for additional Connect to Any Open Mode AP This option is to specify whether the Wi-Fi WAN will connect to any open mode access points it finds. Beacon Miss Counter This sets the threshold for the number of missed beacons. Bandwidth Allowance Monitor Action If Error! Reference source not found. is enabled, you will be notified by email when usage hits 75% and 95% of the monthly allowance. If Disconnect when usage hits 100% of monthly allowance is checked, this WAN connection will be disconnected automatically when the usage hits the monthly allowance. It will not resume connection unless this option has been turned off or the usage has been reset when a new billing cycle starts. Start Day This option allows you to define which day of the month each billing cycle begins. Monthly Allowance This field is for defining the maximum bandwidth usage allowed for the WAN connection each month. https://www.peplink.com 51 Copyright @ 2019 Pepwave Method This setting specifies the health check method for the WAN connection. This value can be configured as Disabled, PING, DNS Lookup, or HTTP. The default method is DNS Lookup. For mobile Internet connections, the value of Method can be configured as Disabled or SmartCheck. Health Check Settings Health Check Disabled When Disabled is chosen in the Method field, the WAN connection will always be considered as up. The connection will NOT be treated as down in the event of IP routing errors. Health Check Method: PING ICMP ping packets will be issued to test the connectivity with a configurable target IP address or hostname. A WAN connection is considered as up if ping responses are received from either one or both of the ping hosts. PING Hosts This setting specifies IP addresses or hostnames with which connectivity is to be tested via ICMP ping. If Use first two DNS servers as Ping Hosts is checked, the target ping host will be the first DNS server for the corresponding WAN connection. Reliable ping hosts with a high uptime should be considered. By default, the first two DNS servers of the WAN connection are used as the ping hosts. Health Check Method: DNS Lookup https://www.peplink.com 52 Copyright @ 2019 Pepwave DNS lookups will be issued to test connectivity with target DNS servers. The connection will be treated as up if DNS responses are received from one or both of the servers, regardless of whether the result was positive or negative. Health Check DNS Servers This field allows you to specify two DNS hosts IP addresses with which connectivity is to be tested via DNS Lookup. If Use first two DNS servers as Health Check DNS Servers is checked, the first two DNS servers will be the DNS lookup targets for checking a connection's health. If the box is not checked, Host 1 must be filled, while a value for Host 2 is optional. If Include public DNS servers is selected and no response is received from all specified DNS servers, DNS lookups will also be issued to some public DNS servers. A WAN connection will be treated as down only if there is also no response received from the public DNS servers. Connections will be considered as up if DNS responses are received from any one of the health check DNS servers, regardless of a positive or negative result. By default, the first two DNS servers of the WAN connection are used as the health check DNS servers. Health Check Method: HTTP HTTP connections will be issued to test connectivity with configurable URLs and strings to match. URL1 WAN Settings>WAN Edit>Health Check Settings>URL1 The URL will be retrieved when performing an HTTP health check. When String to Match is left blank, a health check will pass if the HTTP return code is between 200 and 299 (Note: HTTP redirection codes 301 or 302 are treated as failures). When String to Match is filled, a health check will pass if the HTTP return code is between 200 and 299 and if the HTTP response content contains the string. URL 2 WAN Settings>WAN Edit>Health Check Settings>URL2 If URL2 is also provided, a health check will pass if either one of the tests passed. Other Health Check Settings https://www.peplink.com 53 Copyright @ 2019 Pepwave Timeout This setting specifies the timeout in seconds for ping/DNS lookup requests. The default timeout is 5 seconds. Health Check Interval This setting specifies the time interval in seconds between ping or DNS lookup requests. The default health check interval is 5 seconds. Health Check Retries This setting specifies the number of consecutive ping/DNS lookup timeouts after which the Peplink Balance will treat the corresponding WAN connection as down. Default health retries is set to 3. Using the default Health Retries setting of 3, the corresponding WAN connection will be treated as down after three consecutive timeouts. Recovery Retries This setting specifies the number of consecutive successful ping/DNS lookup responses that must be received before the Peplink Balance treats a previously down WAN connection as up again. By default, Recover Retries is set to 3. Using the default setting, a WAN connection that is treated as down will be considered as up again upon receiving three consecutive successful ping/DNS lookup responses. Dynamic DNS Settings This setting specifies the dynamic DNS service provider to be used for the WAN. Supported providers are:
Service Provider changeip.com dyndns.org no-ip.org tzo.com DNS-O-Matic Select Disabled to disable this feature. https://www.peplink.com 54 Copyright @ 2019 Pepwave User ID / User /
Email Password / Pass /
TZO Key This setting specifies the registered user name for the dynamic DNS service. This setting specifies the password for the dynamic DNS service. Update All Hosts Check this box to automatically update all hosts. Hosts / Domain This setting specifies a list of hostnames or domains to be associated with the public Internet IP address of the WAN connection. Important Note In order to use dynamic DNS services, appropriate hostname registration(s), as well as a valid account with a supported dynamic DNS service provider, are required. A dynamic DNS update is performed whenever a WANs IP address is changed, such as when an IP is changed after a DHCP IP refresh or reconnection. Due to dynamic DNS service providers policies, a dynamic DNS host expires automatically when the host record has not been not updated for a long time. Therefore, the Peplink Balance performs an update every 23 days, even if a WANs IP address did not change. 9.3.1 Creating Wi-Fi Connection Profiles You can manually create a profile to connect to a Wi-Fi connection. This is useful for creating a profile for connecting to hidden-SSID access points. Click Network>WAN>Details>Create Profile to get started. This will open a window similar to the one shown below https://www.peplink.com 55 Copyright @ 2019 Pepwave Wi-Fi Connection Profile Settings Type Select whether the network will connect automatically or manually. Network Name
(SSID) Enter a name to represent this Wi-Fi connection. This option allows you to select which security policy is used for this wireless network. Available options:
Open WEP WPA/WPA2 Personal Security WPA/WPA2 Enterprise https://www.peplink.com 56 Copyright @ 2019 Pepwave 9.4 WAN Health Check To ensure traffic is routed to healthy WAN connections only, the Pepwave router can periodically check the health of each WAN connection. The health check settings for each WAN connection can be independently configured via Network>WAN>Details. Method This setting specifies the health check method for the WAN connection. This value can be configured as Disabled, PING, DNS Lookup, or HTTP. The default method is DNS Lookup. For mobile Internet connections, the value of Method can be configured as Disabled or SmartCheck. Health Check Settings Health Check Disabled When Disabled is chosen in the Method field, the WAN connection will always be considered as up. The connection will NOT be treated as down in the event of IP routing errors. Health Check Method: PING ICMP ping packets will be issued to test the connectivity with a configurable target IP address or hostname. A WAN connection is considered as up if ping responses are received from either one or both of the ping hosts. PING Hosts This setting specifies IP addresses or hostnames with which connectivity is to be tested via ICMP ping. If Use first two DNS servers as Ping Hosts is checked, the target ping host will be the first DNS server for the corresponding WAN connection. Reliable ping hosts with a high uptime should be considered. By default, the first two DNS servers of the WAN connection are used as the ping hosts. Health Check Method: DNS Lookup DNS lookups will be issued to test connectivity with target DNS servers. The connection will be treated as up if DNS responses are received from one or both of the servers, regardless of whether the result was positive or negative. Health Check DNS Servers This field allows you to specify two DNS hosts IP addresses with which connectivity is to be tested via DNS lookup. https://www.peplink.com 57 Copyright @ 2019 Pepwave If Use first two DNS servers as Health Check DNS Servers is checked, the first two DNS servers will be the DNS lookup targets for checking a connection's health. If the box is not checked, Host 1 must be filled, while a value for Host 2 is optional. If Include public DNS servers is selected and no response is received from all specified DNS servers, DNS lookups will also be issued to some public DNS servers. A WAN connection will be treated as down only if there is also no response received from the public DNS servers. Connections will be considered as up if DNS responses are received from any one of the health check DNS servers, regardless of a positive or negative result. By default, the first two DNS servers of the WAN connection are used as the health check DNS servers. Health Check Method: HTTP HTTP connections will be issued to test connectivity with configurable URLs and strings to match. URL1 WAN Settings>WAN Edit>Health Check Settings>URL1 The URL will be retrieved when performing an HTTP health check. When String to Match is left blank, a health check will pass if the HTTP return code is between 200 and 299 (Note: HTTP redirection codes 301 or 302 are treated as failures). When String to Match is filled, a health check will pass if the HTTP return code is between 200 and 299 and if the HTTP response content contains the string. URL 2 WAN Settings>WAN Edit>Health Check Settings>URL2 If URL2 is also provided, a health check will pass if either one of the tests passed. Other Health Check Settings Timeout This setting specifies the timeout in seconds for ping/DNS lookup requests. The default timeout is 5 seconds. Health Check This setting specifies the time interval in seconds between ping or DNS lookup https://www.peplink.com 58 Copyright @ 2019 Pepwave Interval requests. The default health check interval is 5 seconds. Health Check Retries This setting specifies the number of consecutive ping/DNS lookup timeouts after which the Pepwave router will treat the corresponding WAN connection as down. Default health retries is set to 3. Using the default Health Retries setting of 3, the corresponding WAN connection will be treated as down after three consecutive timeouts. Recovery Retries This setting specifies the number of consecutive successful ping/DNS lookup responses that must be received before the Pepwave router treats a previously down WAN connection as up again. By default, Recover Retries is set to 3. Using the default setting, a WAN connection that is treated as down will be considered as up again upon receiving three consecutive successful ping/DNS lookup responses. Automatic Public DNS Server Check on DNS Test Failure When the health check method is set to DNS Lookup and health checks fail, the Pepwave router will automatically perform DNS lookups on public DNS servers. If the tests are successful, the WAN may not be down, but rather the target DNS server malfunctioned. You will see the following warning message on the main page:
9.5 Dynamic DNS Settings Pepwave routers are capable of registering the domain name relationships to dynamic DNS service providers. Through registration with dynamic DNS service provider(s), the default public Internet IP address of each WAN connection can be associated with a host name. With dynamic DNS service enabled for a WAN connection, you can connect to your WAN's IP address from the external, even if its IP address is dynamic. You must register for an account from the listed dynamic DNS service providers before enabling this option. If the WAN connection's IP address is a reserved private IP address (i.e., behind a NAT router), the public IP of each WAN will be automatically reported to the DNS service provider. Either upon a change in IP addresses or every 23 days without link reconnection, the Pepwave router will connect to the dynamic DNS service provider to perform an IP address update within the providers records. The settings for dynamic DNS service provider(s) and the association of hostname(s) are configured via Network>WAN>Details>Dynamic DNS Service Provider/Dynamic DNS Settings. https://www.peplink.com 59 Copyright @ 2019 Pepwave Dynamic DNS Settings This setting specifies the dynamic DNS service provider to be used for the WAN based on supported dynamic DNS service providers:
changeip.com dyndns.org no-ip.org tzo.com DNS-O-Matic Others Dynamic DNS Account Name /
Email Address Password / TZO Key Hosts / Domain Support custom Dynamic DNS servers by entering its URL. Works with any service compatible with DynDNS API. Select Disabled to disable this feature. This setting specifies the registered user name for the dynamic DNS service. This setting specifies the password for the dynamic DNS service. This field allows you to specify a list of host names or domains to be associated with the public Internet IP address of the WAN connection. If you need to enter more than one host, use a carriage return to separate them. Important Note In order to use dynamic DNS services, appropriate host name registration(s) and a valid account with a supported dynamic DNS service provider are required. A dynamic DNS update is performed whenever a WANs IP address changes (e.g., the IP is changed after a DHCP IP refresh, reconnection, etc.). Due to dynamic DNS service providers policy, a dynamic DNS host will automatically expire if the host record has not been updated for a long time. Therefore the Pepwave router performs an update every 23 days, even if a WANs IP address has not changed. https://www.peplink.com 60 Copyright @ 2019 Pepwave 10 Advanced Wi-Fi Settings Wi-Fi settings can be configured at Advanced>Wi-Fi Settings (or AP>Settings on some models). Note that menus displayed can vary by model. AP Settings SSID You can select the wireless networks for 2.4 GHz or 5 GHz seperately for each SSID. This drop-down menu specifies the national/regional regulations which the Wi-
Fi radio should follow. If a North American region is selected, RF channels 1 to 11 will be available and the maximum transmission power will be 26 dBm (400 mW). If European region is selected, RF channels 1 to 13 will be available. The maximum transmission power will be 20 dBm (100 mW). NOTE: Users are required to choose an option suitable to local laws and regulations. Indicate the preferred frequency to use for clients to connect. Operating Country Preferred Frequency Per FCC regulation, the country selection is not available on all models marketed in the US. All US models are fixed to US channels only. Important Note https://www.peplink.com 61 Copyright @ 2019 Pepwave AP Settings (part 2) Protocol This option allows you to specify whether 802.11b and/or 802.11g client association requests will be accepted. Available options are 802.11ng and 802.11na. By default, 802.11ng is selected. Channel Width Available options are 20 MHz, 40 MHz, and Auto (20/40 MHz) . Default is Auto (20/40 MHz), which allows both widths to be used simultaneously. Channel This option allows you to select which 802.11 RF channel will be utilized. Channel 1 (2.412 GHz) is selected by default. Auto Channel Update Output Power Client Signal Strength Threshold Indicate the time of day at which update automatic channel selection. This option is for specifying the transmission output power for the Wi-Fi AP. There are 4 relative power levels available Max, High, Mid, and Low. The actual output power will be bound by the regulatory limits of the selected country. This setting determines the maximum strength at which the Wi-Fi AP can broadcast Maximum number of clients This setting determines the maximum number of clients that can connect to this Wi-Fi frequency. Advanced Wi-Fi AP settings can be displayed by clicking the of the Wi-Fi AP Settings section, which can be found at AP>Settings. Other models will display a separate section called Wi-Fi AP Advanced Settings, which can be found at Advanced>Wi-Fi Settings. on the top right-hand corner https://www.peplink.com 62 Copyright @ 2019 Pepwave Advanced AP Settings Management VLAN ID This field specifies the VLAN ID to tag to management traffic, such as communication traffic between the AP and the AP Controller. The value is zero by default, which means that no VLAN tagging will be applied. NOTE: Change this value with caution as alterations may result in loss of connection to the AP Controller. Operating Schedule Choose from the schedules that you have defined in System>Schedule. Select the schedule for the integrated AP to follow from the drop-down menu. Beacon Rate A This option is for setting the transmit bit rate for sending a beacon. By default, 1Mbps is selected. Beacon Interval A This option is for setting the time interval between each beacon. By default, 100ms is selected. DTIM A This field allows you to set the frequency for the beacon to include delivery traffic indication messages. The interval is measured in milliseconds. The default value is set to 1 ms. RTS Threshold A The RTS (Request to Clear) threshold determines the level of connection required before the AP starts sending data. The recommended standard of the RTS threshold is around 500. Fragmentation Threshold A This setting determines the maximum size of a packet before it gets fragmented into multiple pieces. Distance / Time Convertor Select the range you wish to cover with your Wi-Fi, and the router will make recommendations for the Slot Time and ACK Timeout. https://www.peplink.com 63 Copyright @ 2019 Pepwave
1 2 3 | User Manual-2 | Users Manual | 4.35 MiB | April 24 2020 |
Slot Time A This field is for specifying the unit wait time before transmitting a packet. By default, this field is set to 9 s. ACK Timeout A This field is for setting the wait time to receive an acknowledgement packet before performing a retransmission. By default, this field is set to 48 s. Frame Aggregation A This option allows you to enable frame aggregation to increase transmission throughput. A - Advanced feature, please click the button on the top right-hand corner to activate. https://www.peplink.com 64 Copyright @ 2019 Pepwave Web Administration Settings Enable Ticking this box enables web admin access for APs located on the WAN. Web Access Protocol Determines whether the web admin portal can be accessed through HTTP or HTTPS Management Port Determines the port at which the management UI can be accessed. Admin Username Determines the username to be used for logging into the web admin portal Admin Password Determines the password for the web admin portal on external AP. Wi-Fi WAN settings can be configured at Advanced>Wi-Fi Settings (or Advanced>Wi-Fi WAN or some models). Wi-Fi WAN Settings Channel Width Available options are 20/40 MHz and 20 MHz. Default is 20/40 MHz, which allows both widths to be used simultaneously. Bit Rate This option allows you to select a specific bit rate for data transfer over the devices Wi-Fi network. By default, Auto is selected. Output Power This option is for specifying the transmission output power for the Wi-Fi AP. There are 4 relative power levels available Max, High, Mid, and Low. The actual output power will be bound by the regulatory limits of the selected country. Note that selecting the Boost option may cause the MAXs radio output to exceed local regulatory limits. https://www.peplink.com 65 Copyright @ 2019 Pepwave 11 ContentHub Configuration 11.1 ContentHub ContentHub allows you to deliver webpages and applications to users connected to the SSID using the local storage on your router like the Max HD2/HD4 with Mediafast, which can store up to 8GB of media. Users will be able to access news, articles, videos, and access your web app, without the need for internet access. The ContentHub can be used to provide infotainment to connected users on transport. 11.2 Configuring the ContentHub ContentHub Storage needs to be configured before content can be uploaded to the ContentHub. Follow the link on the information panel to configure storage. To access the ContentHub, navigate to Advanced > ContentHub and check the Enable box On an external server configure content (a website or application) that will be synced to the ContentHub; for example a html5 website. To configure a website or application as content follow these steps. https://www.peplink.com 66 Copyright @ 2019 Pepwave 11.3 Configure a website to be published from the ContentHub This option allows you to sync a website to the Peplink router, this website will then be published with the specified domain from the router itself and makes the content available to the client via the HTTP/HTTPS protocol. Only FTP sync is supported for this type of ContentHub content. The content should be uploaded to an FTP server before. Click New Website, and the following configuration options will appear:
The Active checkbox toggles the activation of the content. For type, select Website. Type HTTP,HTTPS or both Domain/Pat h Source The contenhub uses this as the domain name for client access (such as http://mytest.com). Enter the server details that the content will be downloaded from. Enter your credentials https://www.peplink.com 67 Copyright @ 2019 Pepwave under Username and Password. This field determines how often the Router will search for updates to the source content. Only applicable for application: Choose between sync or file upload Used to limit the bandwidth for each client to access the web server. Period Method Bandwidth Limit Click Save & Apply Now to activate the changes. Below is a screenshot after configuration:
The content will be sync based on the Period that is configured before. If you want to trigger the sync manually, you can click The Status column shows the sync progress. When the sync complete, there is a summary as shown in the screenshot below:
. To access the content, open a browser in MFAs client and enter the domain configured before (such as http://mytest.com). 11.4 Configure an application to be published from the ContentHub Mediafast Routers allow you to configure and publish ant application from the router itself by using the supported framework Python (version 2.7.12) Ruby (version 2.3.3) https://www.peplink.com 68 Copyright @ 2019 Pepwave Node.js (version 6.9.2) First install the desired framework in Package Manager as below:
After installing the framework, you can select the type to Application and configure the website:
https://www.peplink.com 69 Copyright @ 2019 Pepwave The setting is same as Website type and you can refer to the description in the above section For the Application type, you need to pack your application as below:
1. Implement two bash script files, start.sh and stop.sh in root folder, to start and stop your application. the Mediafast router will only execute start.sh and stop.sh when the corresponding website is enabled and disabled respectively. 2. Compress your application files and the bash script to .tar.gz format. 3. Upload this tar file to the router. 12 MediaFast Configuration MediaFast settings can be configured from the Advanced menu. 12.1 Setting Up MediaFast Content Caching To access MediaFast content caching settings, select Advanced>Cache Control https://www.peplink.com 70 Copyright @ 2019 Pepwave Enable Click the checkbox to enable MediaFast content caching. MediaFast Domains / IP Addresses Choose to Cache on all domains, or enter domain names and then choose either Whitelist (cache the specified domains only) or Blacklist (do not cache the specified domains). Source IP Subnet This setting allows caching to be enabled on custom subnets only. If "Any" is selected, then caching will apply to all subnets. The Secure Content Caching menu operates identically to the MediaFast menu, except it is for https://. In order for Mediafast devices to cache and deliver HTTPS content, every client needs to have the installed*. certificates accessible necessary cachting through content secure https://www.peplink.com 71 Copyright @ 2019 Pepwave
*See https://forum.peplink.com/t/certificate-installation-for-mediafast-https-caching/
Cache Control Content Type Check these boxes to cache the listed content types or leave boxes unchecked to disable caching for the listed types. Cache Lifetime Settings Enter a file extension, such as JPG or DOC. Then enter a lifetime in days to specify how long files with that extension will be cached. Add or delete entries using the controls on the right. 12.2 Scheduling Content Prefetching Content prefetching allows you to download content on a schedule that you define, which can help to preserve network bandwidth during busy times and keep costs down. To access MediaFast content prefetching settings, select Advanced >Prefetch Schedule. Prefetch Schedule Settings https://www.peplink.com 72 Copyright @ 2019 Pepwave Name Status Next Run Time/Last Run Time Last Duration This field displays the name given to the scheduled download. Check the status of your scheduled download here. These fields display the date and time of the next and most recent occurrences of the scheduled download. Check this field to ensure that the most recent download took as long as expected to complete. A value that is too low might indicate an incomplete download or incorrectly specified download target, while a value that is too long could mean a download with an incorrectly specified target or stop time. Result This field indicates whether downloads are in progress (
) or complete (
). Last Download Check this field to ensure that the most recent download file size is within the expected range. A value that is too low might indicate an incomplete download or incorrectly specified download target, while a value that is too long could mean a download with an incorrectly specified target or stop time. This field is also useful for quickly seeing which downloads are consuming the most storage space. To begin a scheduled download immediately, click
. Actions To cancel a scheduled download, click
. To edit a scheduled download, click
. To delete a scheduled download, click
. Click to begin creating a new scheduled download. Clicking the button will cause the following screen to appear:
New Schedule Simply provide the requested information to create your schedule. Clear Web Cache To clear all cached content, click this button. Note that this action cannot be undone. Clear Statistics To clear all prefetch and status page statistics, click this button. https://www.peplink.com 73 Copyright @ 2019 Pepwave https://www.peplink.com 74 Copyright @ 2019 Pepwave 12.3 Viewing MediaFast Statistics To get details on storage and bandwidth usage, select Status>MediaFast. https://www.peplink.com 75 Copyright @ 2019 Pepwave 13 Bandwidth Bonding SpeedFusionTM / PepVPN Pepwave bandwidth bonding SpeedFusionTM is our patented technology that enables our SD-
WAN routers to bond multiple Internet connections to increase site-to-site bandwidth and reliability. SpeedFusion functionality securely connects your Pepwave router to another Pepwave or Peplink device (Peplink Balance 210/310/380/580/710/1350 only). Data, voice, or video communications between these locations are kept confidential across the public Internet. Bandwidth bonding SpeedFusionTM is specifically designed for multi-WAN environments. In case of failures and network congestion at one or more WANs, other WANs can be used to continue carrying the network traffic. Different models of our SD-WAN routers have different numbers of site-to-site connections allowed. End-users who need to have more site-to-site connections can purchase a SpeedFusion license to increase the number of site-to-site connections allowed. Pepwave routers can aggregate all WAN connections bandwidth for routing SpeedFusionTM traffic. Unless all the WAN connections of one site are down, Pepwave routers can keep the VPN up and running. VPN bandwidth bonding is supported in Firmware 5.1 or above. All available bandwidth will be utilized to establish the VPN tunnel, and all traffic will be load balanced at packet level across all links. VPN bandwidth bonding is enabled by default. 13.1 PepVPN To configure PepVPN and SpeedFusion, navigate to Advanced>SpeedFusion or Advanced>PepVPN. https://www.peplink.com 76 Copyright @ 2019 Pepwave The local LAN subnet and subnets behind the LAN (defined under Static Route on the LAN settings page) will be advertised to the VPN. All VPN members (branch offices and headquarters) will be able to route to local subnets. Note that all LAN subnets and the subnets behind them must be unique. Otherwise, VPN members will not be able to access each other. All data can be routed over the VPN using the 256-bit AES encryption standard. To configure, navigate to Advanced>SpeedFusion or Advanced>PepVPN and click the New Profile button to create a new VPN profile (you may have to first save the displayed default profile in order to access the New Profile button). Each profile specifies the settings for making VPN connection with one remote Pepwave or Peplink device. Note that available settings vary by model. A list of defined SpeedFusion connection profiles and a Link Failure Detection Time option will be shown. Click the New Profile button to create a new VPN connection profile for making a VPN connection to a remote Peplink Balance via the available WAN connections. Each profile is for making a VPN connection with one remote Peplink Balance. https://www.peplink.com 77 Copyright @ 2019 Pepwave PepVPN Profile Settings Name Active This field is for specifying a name to represent this profile. The name can be any combination of alphanumeric characters (0-9, A-Z, a-z), underscores (_), dashes
(-), and/or non-leading/trailing spaces ( ). When this box is checked, this VPN connection profile will be enabled. Otherwise, it will be disabled. Encryption By default, VPN traffic is encrypted with 256-bit AES. If Off is selected on both sides of a VPN connection, no encryption will be applied. Authentication Select from By Remote ID Only, Preshared Key, or X.509 to specify the method the Peplink Balance will use to authenticate peers. When selecting By Remote ID Only, be sure to enter a unique peer ID number in the Remote ID field. Remote ID /
Pre-shared Key This optional field becomes available when Remote ID / Pre-shared Key is selected as the Peplink Balances VPN Authentication method, as explained above. Pre-shared Key defines the pre-shared key used for this particular VPN connection. The VPN connection's session key will be further protected by the pre-
shared key. The connection will be up only if the pre-shared keys on each side match. When the peer is running firmware 5.0+, this setting will be ignored. Enter Remote IDs either by typing out each Remote ID and Pre-shared Key, or by pasting a CSV. If you wish to paste a CSV, click the ID / Preshared Key setting. icon next to the Remote Remote These optional fields become available when X.509 is selected as the Peplink https://www.peplink.com 78 Copyright @ 2019 Pepwave ID/Remote Certificate Balances VPN authentication method, as explained above. To authenticate VPN connections using X.509 certificates, copy and paste certificate details into these fields. To get more information on a listed X.509 certificate, click the Show Details link below the field. Allow Shared Remote ID When this option is enabled, the router will allow multiple peers to run using the same remote ID. NAT Mode Check this box to allow the local DHCP server to assign an IP address to the remote peer. When NAT Mode is enabled, all remote traffic over the VPN will be tagged with the assigned IP address using network address translation. Remote IP Address / Host Names
(Optional) If NAT Mode is not enabled, you can enter a remote peers WAN IP address or hostname(s) here. If the remote uses more than one address, enter only one of them here. Multiple hostnames are allowed and can be separated by a space character or carriage return. Dynamic-DNS host names are also accepted. This field is optional. With this field filled, the Peplink Balance will initiate connection to each of the remote IP addresses until it succeeds in making a connection. If the field is empty, the Peplink Balance will wait for connection from the remote peer. Therefore, at least one of the two VPN peers must specify this value. Otherwise, VPN connections cannot be established. Cost Define path cost for this profile. OSPF will determine the best route through the network using the assigned cost. Default: 10 Data Port This field is used to specify a UDP port number for transporting outgoing VPN data. If Default is selected, UDP port 4500 will be used. Port 32015 will be used if the remote unit uses Firmware prior to version 5.4 or if port 4500 is unavailable. If Custom is selected, enter an outgoing port number from 1 to 65535. Bandwidth Limit Define maximum download and upload speed to each individual peer. This functionality requires the peer to use PepVPN version 4.0.0 or above. Cost Define path cost for this profile. OSPF will determine the best route through the network using the assigned cost. Default: 10 WAN SmoothingA Select the degree to which WAN Smoothing will be implemented across your WAN links. Use IP ToS Checking this button enables the use of IP ToS header field. Latency Difference Cutoff Traffic will be stopped for links that exceed the specified millisecond value with respect to the lowest latency link. (e.g. Lowest latency is 100ms, a value of 500ms means links with latency 600ms or more will not be used) A - Advanced feature, please click the To enable Layer 2 Bridging between PepVPN profiles, navigate to Network>LAN>Basic button on the top right-hand corner to activate. https://www.peplink.com 79 Copyright @ 2019 Pepwave Settings>*LAN Profile Name* and refer to instructions in section 9.1 8.41 WAN Connection Priority WAN Connection Priority If your device supports it, you can specify the priority of WAN connections to be used for making VPN connections. WAN connections set to OFF will never be used. Only available WAN connections with the highest priority will be used. To enable asymmetric connections, connection mapping to remote WANs, cut-off latency, and packet loss suspension time, click the button. Send All Traffic To This feature allows you to redirect all traffic to a specified PepVPN connection. Click the select your connection and the following menu will appear:
button to You could also specify a DNS server to resolve incoming DNS requests. Click the checkbox next to Backup Site to designate a backup SpeedFusion profile that will take over, should the main PepVPN connection fail. https://www.peplink.com 80 Copyright @ 2019 Pepwave Outbound Policy/PepVPN Outbound Custom Rules Some models allow you to set outbound policy and custom outbound rules from Advanced>PepVPN. See Section 14 for more information on outbound policy settings. PepVPN Local ID The local ID is a text string to identify this local unit when establishing a VPN connection. When creating a profile on a remote unit, this local ID must be entered in the remote unit's Remote ID field. Click the icon to edit Local ID. PepVPN Settings Handshake PortA To designate a custom handshake port (TCP), click the custom radio button and enter the port number you wish to designate. Backward Compatibility Determine the level of backward compatibility needed for PepVPN tunnels. The use of the Latest setting is recommended as it will improve the performance and resilience of SpeedFusion connections. Link Failure Detection Time The bonded VPN can detect routing failures on the path between two sites over each WAN connection. Failed WAN connections will not be used to route VPN traffic. Health check packets are sent to the remote unit to detect any failure. The more frequently checks are sent, the shorter the detection time, although more bandwidth will be consumed. When Recommended (default) is selected, a health check packet is sent every five seconds, and the expected detection time is 15 seconds. When Fast is selected, a health check packet is sent every three seconds, and the expected detection time is six seconds. https://www.peplink.com 81 Copyright @ 2019 Pepwave When Faster is selected, a health check packet is sent every second, and the expected detection time is two seconds. When Extreme is selected, a health check packet is sent every 0.1 second, and the expected detection time is less than one second. A - Advanced feature, please click the button on the top right-hand corner to activate. Peplink proprietary SpeedFusionTM uses TCP port 32015 and UDP port 4500 for establishing VPN connections. If you have a firewall in front of your Pepwave devices, you will need to add firewall rules for these ports and protocols to allow inbound and outbound traffic to pass through the firewall. Important Note Tip Want to know more about VPN sub-second session failover? Visit our YouTube Channel for a video tutorial!
http://youtu.be/TLQgdpPSY88 13.2 The Pepwave Router Behind a NAT Router Pepwave routers support establishing SpeedFusionTM over WAN connections which are behind a NAT (network address translation) router. To enable a WAN connection behind a NAT router to accept VPN connections, you can configure the NAT router in front of the WAN connection to inbound port-forward TCP port 32015 to the Pepwave router. If one or more WAN connections on Unit A can accept VPN connections (by means of port forwarding or not), while none of the WAN connections on the peer Unit B can do so, you should enter all of Unit As public IP addresses or hostnames into Unit Bs Remote IP Addresses / Host Names field. Leave the field in Unit A blank. With this setting, a SpeedFusionTM connection can be set up and all WAN connections on both sides will be utilized. See the following diagram for an example of this setup in use:
https://www.peplink.com 82 Copyright @ 2019 Pepwave One of the WANs connected to Router A is non-NATd (212.1.1.1). The rest of the WANs connected to Router A and all WANs connected to Router B are NATd. In this case, the Peer IP Addresses / Host Names field for Router B should be filled with all of Router As hostnames or public IP addresses (i.e., 212.1.1.1, 212.2.2.2, and 212.3.3.3), and the field in Router A can be left blank. The two NAT routers on WAN1 and WAN3 connected to Router A should inbound port-forward TCP port 32015 to Router A so that all WANs will be utilized in establishing the VPN. 13.3 SpeedFusionTM Status SpeedFusionTM status is shown in the Dashboard. The connection status of each connection profile is shown as below. After clicking the Status button at the top right corner of the SpeedFusionTM table, you will be forwarded to Status>SpeedFusionTM, where you can view subnet and WAN connection information for each VPN peer. Please refer to Section 22.6 for details. IP Subnets Must Be Unique Among VPN Peers The entire interconnected SpeedFusionTM network is a single non-NAT IP network. Avoid duplicating subnets in your sites to prevent connectivity problems when accessing those subnets. 14 IPsec VPN IPsec VPN functionality securely connects one or more branch offices to your company's main https://www.peplink.com 83 Copyright @ 2019 Pepwave headquarters or to other branches. Data, voice, and video communications between these locations are kept safe and confidential across the public Internet. IPsec VPN on Pepwave routers is specially designed for multi-WAN environments. For instance, if a user sets up multiple IPsec profiles for a multi-WAN environment and WAN1 is connected and healthy, IPsec traffic will go through this link. However, should unforeseen problems (e.g., unplugged cables or ISP problems) cause WAN1 to go down, our IPsec implementation will make use of WAN2 and WAN3 for failover. 14.1 IPsec VPN Settings Many Pepwave products can make multiple IPsec VPN connections with Peplink, Pepwave, Cisco, and Juniper routers. Note that all LAN subnets and the subnets behind them must be unique. Otherwise, VPN members will not be able to access each other. All data can be routed over the VPN with a selection of encryption standards, such as 3DES, AES-128, and AES-256. To configure IPsec VPN on Pepwave devices that support it, navigate to Advanced>IPsec VPN. A NAT-Traversal option and list of defined IPsec VPN profiles will be shown. NAT-Traversal should be enabled if your system is behind a NAT router. Click the New Profile button to create new IPsec VPN profiles that make VPN connections to remote Pepwave, Cisco, or Juniper routers via available WAN connections. To edit any of the profiles, click on its associated connection name in the leftmost column. https://www.peplink.com 84 Copyright @ 2019 Pepwave IPsec VPN Settings https://www.peplink.com 85 Copyright @ 2019 Pepwave Name Active Connect Upon Disconnection of Remote Gateway IP Address / Host Name Local Networks This field is for specifying a local name to represent this connection profile. When this box is checked, this IPsec VPN connection profile will be enabled. Otherwise, it will be disabled. Check this box and select a WAN to connect to this VPN automatically when the specified WAN is disconnected. Enter the remote peers public IP address. For Aggressive Mode, this is optional. Enter the local LAN subnets here. If you have defined static routes, they will be shown here. Using NAT, you can map a specific local network / IP address to another, and the packets received by remote gateway will appear to be coming from the mapped network / IP address. This allow you to establish IPsec connection to a remote site that has one or more subnets overlapped with local site. Two types of NAT policies can be defined:
One-to-One NAT policy: if the defined subnet in Local Network and NAT Network has the same size, for example, policy "192.168.50.0/24 > 172.16.1.0/24" will translate the local IP address 192.168.50.10 to 172.16.1.10 and 192.168.50.20 to 172.16.1.20. This is a bidirectional mapping which means clients in remote site can initiate connection to the local clients using the mapped address too. Many-to-One NAT policy: if the defined NAT Network on the right hand side is an IP address (or having a network prefix /32), for example, policy "192.168.1.0/24
> 172.168.50.1/32" will translate all clients in 192.168.1.0/24 network to 172.168.50.1. This is a unidirectional mapping which means clients in remote site will not be able to initiate connection to the local clients. Remote Networks Enter the LAN and subnets that are located at the remote site here. Authentication To access your VPN, clients will need to authenticate by your choice of methods. Choose between the Preshared Key and X.509 Certificate methods of authentication. Mode Choose Main Mode if both IPsec peers use static IP addresses. Choose Aggressive Mode if one of the IPsec peers uses dynamic IP addresses. Force UDP Encapsulation For forced UDP encapsulation regardless of NAT-traversal, tick this checkbox. https://www.peplink.com 86 Copyright @ 2019 Pepwave Pre-shared Key This defines the peer authentication pre-shared key used to authenticate this VPN connection. The connection will be up only if the pre-shared keys on each side match. Remote Certificate (pem encoded) Available only when X.509 Certificate is chosen as the Authentication method, this field allows you to paste a valid X.509 certificate. Local ID In Main Mode, this field can be left blank. In Aggressive Mode, if Remote Gateway IP Address is filled on this end and the peer end, this field can be left blank. Otherwise, this field is typically a U-FQDN. Remote ID In Main Mode, this field can be left blank. In Aggressive Mode, if Remote Gateway IP Address is filled on this end and the peer end, this field can be left blank. Otherwise, this field is typically a U-FQDN. Phase 1 (IKE) Proposal In Main Mode, this allows setting up to six encryption standards, in descending order of priority, to be used in initial connection key negotiations. In Aggressive Mode, only one selection is permitted. Phase 1 DH Group This is the Diffie-Hellman group used within IKE. This allows two parties to establish a shared secret over an insecure communications channel. The larger the group number, the higher the security. Group 2: 1024-bit is the default value. Group 5: 1536-bit is the alternative option. Phase 1 SA Lifetime This setting specifies the lifetime limit of this Phase 1 Security Association. By default, it is set at 3600 seconds. Phase 2 (ESP) Proposal In Main Mode, this allows setting up to six encryption standards, in descending order of priority, to be used for the IP data that is being transferred. In Aggressive Mode, only one selection is permitted. Phase 2 PFS Group Perfect forward secrecy (PFS) ensures that if a key was compromised, the attacker will be able to access only the data protected by that key. None - Do not request for PFS when initiating connection. However, since there is no valid reason to refuse PFS, the system will allow the connection to use PFS if requested by the remote peer. This is the default value. Group 2: 1024-bit Diffie-Hellman group. The larger the group number, the higher the security. Group 5: 1536-bit is the third option. Phase 2 SA Lifetime This setting specifies the lifetime limit of this Phase 2 Security Association. By default, it is set at 28800 seconds. https://www.peplink.com 87 Copyright @ 2019 Pepwave WAN Connection Priority WAN Connection Select the appropriate WAN connection from the drop-down menu. 15 Outbound Policy Management Pepwave routers can flexibly manage and load balance outbound traffic among WAN connections. Outbound policy is applied only when more than one WAN connection is active. Important Note The settings for managing and load balancing outbound traffic are located at Advanced>Outbound Policy or Advanced>PepVPN, depending on the model. 15.1 Outbound Policy Outbound policies for managing and load balancing outbound traffic are located at Network>Outbound Policy>
or Advanced>PepVPN>Outbound Policy. https://www.peplink.com 88 Copyright @ 2019 Pepwave There are three main selections for the outbound traffic policy:
High Application Compatibility Normal Application Compatibility Custom Note that some Pepwave routers provide only the Send All Traffic To setting here. See Section 12.1 for details. Outbound Policy Settings High Application Compatibility Outbound traffic from a source LAN device is routed through the same WAN connection regardless of the destination Internet IP address and protocol. This option provides the highest application compatibility. Normal Application Compatibility Outbound traffic from a source LAN device to the same destination Internet IP address will be routed through the same WAN connection persistently, regardless of protocol. This option provides high compatibility to most applications, and users still benefit from WAN link load balancing when multiple Internet servers are accessed. Custom Outbound traffic behavior can be managed by defining rules in a custom rule table. A default rule can be defined for connections that cannot be matched with any of the rules. The default policy is Normal Application Compatibility. Tip Want to know more about creating outbound rules? Visit our YouTube Channel for a video tutorial!
https://www.peplink.com 89 Copyright @ 2019 Pepwave http://youtu.be/rKH4AS_bQnE 15.2 Custom Rules for Outbound Policy Click in the Outbound Policy form. Choose Custom and press the Save button. 15.2.1 Algorithm: Weighted Balance This setting specifies the ratio of WAN connection usage to be applied on the specified IP protocol and port. This setting is applicable only when Algorithm is set to Weighted Balance. https://www.peplink.com 90 Copyright @ 2019 Pepwave The amount of matching traffic that is distributed to a WAN connection is proportional to the weight of the WAN connection relative to the total weight. Use the sliders to change each WANs weight. For example, with the following weight settings:
Ethernet WAN1: 10 Ethernet WAN2: 10 Wi-Fi WAN: 10 Cellular 1: 10 Cellular 2: 10 USB: 10 Total weight is 60 = (10 +10 + 10 + 10 + 10 + 10). Matching traffic distributed to Ethernet WAN1 is 16.7% = (10 / 60 x 100%. Matching traffic distributed to Ethernet WAN2 is 16.7% = (10 / 60) x 100%. Matching traffic distributed to Wi-Fi WAN is 16.7% = (10 / 60) x 100%. Matching traffic distributed to Cellular 1 is 16.7% = (10 / 60) x 100%. Matching traffic distributed to Cellular 2 is 16.7% = (10 / 60) x 100%. Matching traffic distributed to USB is 16.7% = (10 / 60) x 100%. 15.2.2 Algorithm: Persistence The configuration of persistent services is the solution to the few situations where link load distribution for Internet services is undesirable. For example, for security reasons, many e-
banking and other secure websites terminate the session when the client computers Internet IP address changes mid-session. In general, different Internet IP addresses represent different computers. The security concern https://www.peplink.com 91 Copyright @ 2019 Pepwave is that an IP address change during a session may be the result of an unauthorized intrusion attempt. Therefore, to prevent damages from the potential intrusion, the session is terminated upon the detection of an IP address change. Pepwave routers can be configured to distribute data traffic across multiple WAN connections. Also, the Internet IP depends on the WAN connections over which communication actually takes place. As a result, a LAN client computer behind the Pepwave router may communicate using multiple Internet IP addresses. For example, a LAN client computer behind a Pepwave router with three WAN connections may communicate on the Internet using three different IP addresses. With the persistence feature, rules can be configured to enable client computers to persistently utilize the same WAN connections for e-banking and other secure websites. As a result, a client computer will communicate using one IP address, eliminating the issues mentioned above. There are two persistent modes: By Source and By Destination. By Source:
By Destination:
The same WAN connection will be used for traffic matching the rule and originating from the same machine, regardless of its destination. This option will provide the highest level of application compatibility. The same WAN connection will be used for traffic matching the rule, originating from the same machine, and going to the same destination. This option can better distribute loads to WAN connections when there are only a few client machines. The default mode is By Source. When there are multiple client requests, they can be distributed (persistently) to WAN connections with a weight. If you choose Auto in Load Distribution, the weights will be automatically adjusted according to each WANs Downstream Bandwidth which is specified in the WAN settings page). If you choose Custom, you can customize the weight of each WAN manually by using the sliders. 15.2.3 Algorithm: Enforced This setting specifies the WAN connection usage to be applied on the specified IP protocol and port. This setting is applicable only when Algorithm is set to Enforced. https://www.peplink.com 92 Copyright @ 2019 Pepwave Matching traffic will be routed through the specified WAN connection, regardless of the health check status of the WAN connection. Starting from Firmware 5.2, outbound traffic can be enforced to go through a specified SpeedFusionTM connection. 15.2.4 Algorithm: Priority This setting specifies the priority of the WAN connections used to route the specified network service. The highest priority WAN connection available will always be used for routing the specified type of traffic. A lower priority WAN connection will be used only when all higher priority connections have become unavailable. Starting from Firmware 5.2, outbound traffic can be prioritized to go through SpeedFusionTM connection(s). By default, VPN connections are not included in the priority list. Configure multiple distribution rules to accommodate different kinds of services. Tip 15.2.5 Algorithm: Overflow The traffic matching this rule will be routed through the healthy WAN connection that has the highest priority and is not in full load. When this connection gets saturated, new sessions will be routed to the next healthy WAN connection that is not in full load. https://www.peplink.com 93 Copyright @ 2019 Pepwave Drag and drop to specify the order of WAN connections to be used for routing traffic. Only the highest priority healthy connection that is not in full load will be used. 15.2.6 Algorithm: Least Used The traffic matching this rule will be routed through the healthy WAN connection that is selected in Connection and has the most available download bandwidth. The available download bandwidth of a WAN connection is calculated from the total download bandwidth specified on the WAN settings page and the current download usage. The available bandwidth and WAN selection is determined every time an IP session is made. 15.2.7 Algorithm: Lowest Latency The traffic matching this rule will be routed through the healthy WAN connection that is selected in Connection and has the lowest latency. Latency checking packets are issued periodically to a nearby router of each WAN connection to determine its latency value. The latency of a WAN is the packet round trip time of the WAN connection. Additional network usage may be incurred as a result. Tip The roundtrip time of a 6M down/640k uplink can be higher than that of a 2M down/2M up link because the overall round trip time is lengthened by its slower upload bandwidth, despite its higher downlink speed. Therefore, this algorithm is good for two scenarios:
All WAN connections are symmetric; or A latency sensitive application must be routed through the lowest latency WAN, regardless of the WANs https://www.peplink.com 94 Copyright @ 2019 Pepwave available bandwidth. 15.2.8 Expert Mode Expert Mode is available on some Pepwave routers for use by advanced users. To enable the feature, click on the help icon and click turn on Expert Mode. In Expert Mode, a new special rule, SpeedFusionTM Routes, is displayed in the Custom Rules table. This rule represents all SpeedFusionTM routes learned from remote VPN peers. By default, this bar is on the top of all custom rules. This position means that traffic for remote VPN subnets will be routed to the corresponding VPN peer. You can create custom Priority or Enforced rules and move them above the bar to override the SpeedFusionTM routes. Upon disabling Expert Mode, all rules above the bar will be removed. 16 Inbound Access 16.1 Port Forwarding Service Pepwave routers can act as a firewall that blocks, by default, all inbound access from the Internet. By using port forwarding, Internet users can access servers behind the Pepwave router. Inbound port forwarding rules can be defined at Advanced>Port Forwarding. To define a new service, click Add Service. https://www.peplink.com 95 Copyright @ 2019 Pepwave Port Forwarding Settings Enable This setting specifies whether the inbound service takes effect. When Enable is checked, the inbound service takes effect: traffic is matched and actions are taken by the Pepwave router based on the other parameters of the rule. When this setting is disabled, the inbound service does not take effect: the Pepwave router disregards the other parameters of the rule. Service Name This setting identifies the service to the system administrator. Valid values for this setting consist of only alphanumeric and underscore _ characters. IP Protocol The IP Protocol setting, along with the Port setting, specifies the protocol of the service as TCP, UDP, ICMP, or IP. Traffic that is received by the Pepwave router via the specified protocol at the specified port(s) is forwarded to the LAN hosts specified by the Servers setting. Please see below for details on the Port and Servers settings. Alternatively, the Protocol Selection Tool drop-down menu can be used to automatically fill in the protocol and a single port number of common Internet services
(e.g. HTTP, HTTPS, etc.). After selecting an item from the Protocol Selection Tool drop-down menu, the protocol and port number remain manually modifiable. https://www.peplink.com 96 Copyright @ 2019 Pepwave The Port setting specifies the port(s) that correspond to the service, and can be configured to behave in one of the following manners:
Any Port, Single Port, Port Range, Port Map, and Range Mapping Any Port: all traffic that is received by the Pepwave router via the specified protocol is forwarded to the servers specified by the Servers setting. For example, with IP Protocol set to TCP, and Port set to Any Port, all TCP traffic is forwarded to the configured servers. Single Port: traffic that is received by the Pepwave router via the specified protocol at the specified port is forwarded via the same port to the servers specified by the Servers setting. For example, with IP Protocol set to TCP, and Port set to Single Port and Service Port 80, TCP traffic received on port 80 is forwarded to the configured servers via port 80. Port Port Range: traffic that is received by the Pepwave router via the specified protocol at the specified port range is forwarded via the same respective ports to the LAN hosts specified by the Servers setting. For example, with IP Protocol set to TCP, and Port set to Port Range and Service Ports 80-88, TCP traffic received on ports 80 through 88 is forwarded to the configured servers via the respective ports. Port Mapping: traffic that is received by Pepwave router via the specified protocol at the specified port is forwarded via a different port to the servers specified by the Servers setting. For example, with IP Protocol set to TCP, and Port set to Port Mapping, Service Port 80, and Map to Port 88, TCP traffic on port 80 is forwarded to the configured servers via port 88.
(Please see below for details on the Servers setting.) Range Mapping: traffic that is received by the Pepwave router via the specified protocol at the specified port range is forwarded via a different port to the servers specified by the Servers setting. Inbound IP Address(es) This setting specifies the WAN connections and Internet IP address(es) from which the service can be accessed. Server IP Address This setting specifies the LAN IP address of the server that handles the requests for the service. 16.1.1 UPnP / NAT-PMP Settings UPnP and NAT-PMP are network protocols which allow a computer connected to the LAN port to automatically configure the router to allow parties on the WAN port to connect to itself. That way, the process of inbound port forwarding becomes automated. https://www.peplink.com 97 Copyright @ 2019 Pepwave When a computer creates a rule using these protocols, the specified TCP/UDP port of all WAN connections' default IP address will be forwarded. Check the corresponding box(es) to enable UPnP and/or NAT-PMP. Enable these features only if you trust the computers connected to the LAN ports. When the options are enabled, a table listing all the forwarded ports under these two protocols can be found at Status>UPnP / NAT-PMP. 17 NAT Mappings NAT mappings allow IP address mapping of all inbound and outbound NATd traffic to and from an internal client IP address. Settings to configure NAT mappings are located at Advanced>NAT Mappings. To add a rule for NAT mappings, click Add NAT Rule. NAT Mapping Settings LAN NAT mapping rules can be defined for a single LAN IP Address, an IP Range, https://www.peplink.com 98 Copyright @ 2019 Pepwave Client(s) or an IP Network. Address Range Network Inbound Mappings Outbound Mappings This refers to the LAN hosts private IP address. The system maps this address to a number of public IP addresses (specified below) in order to facilitate inbound and outbound traffic. This option is only available when IP Address is selected. The IP range is a contiguous group of private IP addresses used by the LAN host. The system maps these addresses to a number of public IP addresses
(specified below) to facilitate outbound traffic. This option is only available when IP Range is selected. The IP network refers to all private IP addresses and ranges managed by the LAN host. The system maps these addresses to a number of public IP addresses (specified below) to facilitate outbound traffic. This option is only available when IP Network is selected. This setting specifies the WAN connections and corresponding WAN-specific Internet IP addresses on which the system should bind. Any access to the specified WAN connection(s) and IP address(es) will be forwarded to the LAN host. This option is only available when IP Address is selected in the LAN Client(s) field. Note that inbound mapping is not needed for WAN connections in drop-in mode or IP forwarding mode. Also note that each WAN IP address can be associated to one NAT mapping only. This setting specifies the WAN IP addresses that should be used when an IP connection is made from a LAN host to the Internet. Each LAN host in an IP range or IP network will be evenly mapped to one of each selected WAN's IP addresses (for better IP address utilization) in a persistent manner (for better application compatibility). Note that if you do not want to use a specific WAN for outgoing accesses, you should still choose default here, then customize the outbound access rule in the Outbound Policy section. Also note that WAN connections in drop-in mode or IP forwarding mode are not shown here. Click Save to save the settings when configuration has been completed. Inbound firewall rules override the Inbound Mappings settings. Important Note https://www.peplink.com 99 Copyright @ 2019 Pepwave 18 QoS 18.1 User Groups LAN and PPTP clients can be categorized into three user groups: Manager, Staff, and Guest. This menu allows you to define rules and assign client IP addresses or subnets to a user group. You can apply different bandwidth and traffic prioritization policies on each user group in the Bandwidth Control and Application sections (note that the options available here vary by model). The table is automatically sorted by rule precedence. The smaller and more specific subnets are put towards the top of the table and have higher precedence; larger and less specific subnets are placed towards the bottom. Click the Add button to define clients and their user group. Click the the defined rule. Two default rules are pre-defined and put at the bottom. They are All DHCP reservation clients and Everyone, and they cannot be removed. The All DHCP reservation client represents the LAN clients defined in the DHCP Reservation table on the LAN settings page. Everyone represents all clients that are not defined in any rule above. Click on a rule to change its group. button to remove Add / Edit User Group Subnet / IP Address From the drop-down menu, choose whether you are going to define the client(s) by an IP Address or a Subnet. If IP Address is selected, enter a name defined in DHCP reservation table or a LAN client's IP address. If Subnet is selected, enter a subnet address and specify its subnet mask. Group This field is to define which User Group the specified subnet / IP address belongs to. Once users have been assigned to a user group, their internet traffic will be restricted by rules defined for that particular group. Please refer to the following two sections for details. https://www.peplink.com 100 Copyright @ 2019 Pepwave 18.2 Bandwidth Control You can define a maximum download speed (over all WAN connections) and upload speed
(for each WAN connection) that each individual Staff and Guest member can consume. No limit can be imposed on individual Manager members. By default, download and upload bandwidth limits are set to unlimited (set as 0). 18.3 Application 18.3.1 Application Prioritization On many Pepwave routers, you can choose whether to apply the same prioritization settings to all user groups or customize the settings for each group. Three application priority levels can be set: High, Normal, andLow. Pepwave routers can detect various application traffic types by inspecting the packet content. Select an application by choosing a supported application, or by defining a custom application manually. The priority preference of supported applications is placed at the top of the table. Custom applications are at the bottom. 18.3.2 Prioritization for Custom Applications Click the Add button to define a custom application. Click the button column to delete the custom application in the corresponding row. in the Action When Supported Applications is selected, the Pepwave router will inspect network traffic and prioritize the selected applications. Alternatively, you can select Custom Applications https://www.peplink.com 101 Copyright @ 2019 Pepwave and define the application by providing the protocol, scope, port number, and DSCP value. 18.3.3 DSL/Cable Optimization DSL/cable-based WAN connections have lower upload bandwidth and higher download bandwidth. When a DSL/cable circuit's uplink is congested, the download bandwidth will be affected. Users will not be able to download data at full speed until the uplink becomes less congested. DSL/Cable Optimization can relieve such an issue. When it is enabled, the download speed will become less affected by the upload traffic. By default, this feature is enabled. 19 Firewall A firewall is a mechanism that selectively filters data traffic between the WAN side (the Internet) and the LAN side of the network. It can protect the local network from potential hacker attacks, access to offensive websites, and/or other inappropriate uses. The firewall functionality of Pepwave routers supports the selective filtering of data traffic in both directions:
Outbound (LAN to WAN) Inbound (WAN to LAN) The firewall also supports the following functionality:
Intrusion detection and DoS prevention Web blocking With SpeedFusionTM enabled, the firewall rules also apply to VPN tunneled traffic. https://www.peplink.com 102 Copyright @ 2019 Pepwave 19.1 Outbound and Inbound Firewall Rules 19.1.1 Access Rules The outbound firewall settings are located at Advanced>Firewall>Access Rules>Outbound Firewall Rules. Click Add Rule to display the following screen:
Inbound firewall settings are located at Advanced>Firewall>Access Rules>Inbound Firewall Rules. https://www.peplink.com 103 Copyright @ 2019 Pepwave Click Add Rule to display the following screen:
Rules are matched from top to bottom. If a connection matches any one of the upper rules, the matching process will stop. If none of the rules match, the Default rule will be applied. By default, the Default rule is set as Allow for both outbound and inbound access. Inbound / Outbound Firewall Settings Rule Name This setting specifies a name for the firewall rule. Enable This setting specifies whether the firewall rule should take effect. If the box is checked, the firewall rule takes effect. If the traffic matches the specified protocol/IP/port, actions will be taken by the Pepwave router based on the other parameters of the rule. If the box is not checked, the firewall rule does not take effect. The Pepwave router will disregard the other parameters of the rule. Click the dropdown menu next to the checkbox to place this firewall rule on a time schedule. WAN Connection
(Inbound) Select the WAN connection that this firewall rule should apply to. This setting specifies the protocol to be matched. Via a drop-down menu, the following protocols can be specified:
Protocol TCP UDP ICMP IP https://www.peplink.com 104 Copyright @ 2019 Pepwave Source IP & Port Destination IP &
Port Alternatively, the Protocol Selection Tool drop-down menu can be used to automatically fill in the protocol and port number of common Internet services
(e.g., HTTP, HTTPS, etc.) After selecting an item from the Protocol Selection Tool drop-down menu, the protocol and port number remains manually modifiable. This specifies the source IP address(es) and port number(s) to be matched for the firewall rule. A single address, or a network, can be specified as the Source IP &
Port setting, as indicated by the following screenshot:
In addition, a single port, or a range of ports, can be specified for the Source IP &
Port settings. This specifies the destination IP address(es) and port number(s) to be matched for the firewall rule. A single address, or a network, can be specified as the Destination IP & Port setting, as indicated by the following screenshot:
In addition, a single port, or a range of ports, can be specified for the Destination IP & Port settings. This setting specifies the action to be taken by the router upon encountering traffic that matches the both of the following:
With the value of Allow for the Action setting, the matching traffic passes through the router (to be routed to the destination). If the value of the Action setting is set to Deny, the matching traffic does not pass through the router (and is discarded). This setting specifies whether or not to log matched firewall events. The logged messages are shown on the page Status>Event Log. A sample message is as follows:
Aug 13 23:47:44 Denied CONN=Ethernet WAN SRC=20.3.2.1 DST=192.168.1.20 LEN=48 PROTO=TCP SPT=2260 DPT=80 Action Source IP & port Destination IP & port Event Logging CONN: The connection where the log entry refers to SRC: Source IP address DST: Destination IP address LEN: Packet length PROTO: Protocol SPT: Source port DPT: Destination port Click Save to store your changes. To create an additional firewall rule, click Add Rule and repeat the above steps. To change a rules priority, simply drag and drop the rule:
https://www.peplink.com 105 Copyright @ 2019 Pepwave Hold the left mouse button on the rule. Move it to the desired position. Drop it by releasing the mouse button. Tip If the default inbound rule is set to Allow for NAT-enabled WANs, no inbound Allow firewall rules will be required for inbound port forwarding and inbound NAT mapping rules. However, if the default inbound rule is set as Deny, a corresponding Allow firewall rule will be required. 19.1.2 Apply Firewall Rules to PepVpn Traffic When this option is enabled, Outbound Firewall Rules will be applied to PepVPN traffic. To turn on this feature, click
, check the Enable check box, and press the Save button. 19.1.3 Intrusion Detection and DoS Prevention Pepwave routers can detect and prevent intrusions and denial-of-service (DoS) attacks from the Internet. To turn on this feature, click
, check the Enable check box, and press the Save button. When this feature is enabled, the Pepwave router will detect and prevent the following kinds of intrusions and denial-of-service attacks. Port scan o NMAP FIN/URG/PSH o Xmas tree o Another Xmas tree o Null scan o SYN/RST o SYN/FIN SYN flood prevention Ping flood attack prevention https://www.peplink.com 106 Copyright @ 2019 Pepwave 19.2 Content Blocking 19.2.1 Application Blocking Choose applications to be blocked from LAN/PPTP/PepVPN peer clients' access, except for those on the Exempted User Groups or Exempted Subnets defined below. 19.2.2 Web Blocking Defines website domain names to be blocked from LAN/PPTP/PepVPN peer clients' access except for those on the Exempted User Groups or Exempted Subnets defined below. https://www.peplink.com 107 Copyright @ 2019 Pepwave If "foobar.com" is entered, any web site with a host name ending in foobar.com will be blocked, e.g. www.foobar.com, foobar.com, etc. However, "myfoobar.com" will not be blocked. You may enter the wild card ".*" at the end of a domain name to block any web site with a host name having the domain name in the middle. If you enter "foobar.*", then "www.foobar.com",
"www.foobar.co.jp", or "foobar.co.uk" will be blocked. Placing the wild card in any other position is not supported. The device will inspect and look for blocked domain names on all HTTP traffic. Secure web
(HTTPS) traffic is not supported. 19.2.3 Customized Domains Enter an appropriate website address, and the Peplink Balance will block and disallow LAN/PPTP/SpeedFusionTM peer clients to access these websites. Exceptions can be added using the instructions in Sections 20.1.3.2 and 20.1.3.3. You may enter the wild card ".*" at the end of a domain name to block any web site with a host name having the domain name in the middle. For example, If you enter "foobar.*," then
"www.foobar.com," "www.foobar.co.jp," or "foobar.co.uk" will be blocked. Placing the wild card in any other position is not supported. The Peplink Balance will inspect and look for blocked domain names on all HTTP traffic. Secure web (HTTPS) traffic is not supported. 19.2.4 Exempted User Groups Check and select pre-defined user group(s) who can be exempted from the access blocking rules. User groups can be defined at QoS>User Groups section. Please refer to Section 17.1 for details. With the subnet defined in the field, clients on the particular subnet(s) can be exempted from the access blocking rules. Click enable, and the enter the ip address and port (if applicable) where your remote syslog server is located. 19.2.5 Exempted Subnets 19.2.6 URL Logging 20 OSPF & RIPv2 Pepwave The protocols. Click the Advanced tab from the top bar, and then click the Routing Protocols >OSPF &
RIPv2 item on the sidebar to reach the following menu:
supports OSPF and RIPv2 dynamic routing https://www.peplink.com 108 Copyright @ 2019 Pepwave OSPF Router ID This field determines the ID of the router. By default, this is specified as the LAN IP address. If you want to specify your own ID, enter it in the Custom field. Area This is an overview of the OSPFv2 areas you have defined. Click on the area name to configure it. To set a new area, click Add. To delete an existing area, click
. https://www.peplink.com 109 Copyright @ 2019 Pepwave OSPF Settings Area ID Determine the name of your Area ID to apply to this group. Machines linked to this group will send and receive related OSPF packets, while unlinked machines will ignore it. Link Type Choose the network type that this area will use. Authentication Choose an authentication method, if one is used, from this drop-down menu. Available options are MD5 and Text. Enter the authentication key next to the drop-
down menu. Interfaces Determine which interfaces this area will use to listen to and deliver OSPF packets To access RIPv2 settings, click
. https://www.peplink.com 110 Copyright @ 2019 Pepwave RIPv2 Settings Authentication Choose an authentication method, if one is used, from this drop-down menu. Available options are MD5 and Text. Enter the authentication key next to the drop-
down menu. Interfaces Determine which interfaces this group will use to listen to and deliver RIPv2 packets. OSPF & RIPv2 Route Advertisement PepVPN Route Isolation Isolate PepVPN peers from each other. Received PepVPN routes will not be forwarded to other PepVPN peers to reduce bandwidth consumption.. Network Advertising Static Route Advertising Networks to be advertised over OSPF & RIPv2. If no network is selected, all LAN /
VLAN networks will be advertised by default. Enable this option to advertise LAN static routes over OSPF & RIPv2. Static routes that match the Excluded Networks table will not be advertised. https://www.peplink.com 111 Copyright @ 2019 Pepwave 21 BGP Click the Advanced tab from the top bar, and then click the Routing Protocols>BGP item on the sidebar to configure BGP. Click "x" to delete a BGP profile Click "Add" to add a new BGP profile BGP Name This field is for specifying a name to represent this profile. Enable When this box is checked, this BGP profile will be enabled. Otherwise, it will be disabled. Interface The interface where BGP neighbor is located Autonomous System The Autonomous System Number (ASN) of this profile Neighbor BGP Neighbor's details IP address Neighbor's IP address Autonomous System Neighbor's ASN Multihop/TTL Time-to-live (TTL) of BGP packet. Leave it blank if BGP neighbor is directly connected, otherwise you must specify a TTL value. Accurately, this option should be used if the configured neighbor IP https://www.peplink.com 112 Copyright @ 2019 Pepwave address does not match the selected Interface's network subnets. TTL value must be between 2 to 255. Password Optional password for MD5 authentication of BGP sessions. AS-Path Prepending:
AS path to be prepended to the routes received from this neighbor. The value must be a comma separated ASN. For example "64530,64531" will prepend "64530, 64531" to received routes. Hold Time Time in seconds to wait for a keepalive message from the neighbor before considering the BGP connection is staled. This value must be either 0 (infinite hold time) or between 3 and 65535 inclusively. Network Advertising Static Route Advertising Advertise OSPF Route Networks to be advertised to BGP neighbor. Enable this option to advertise LAN static routes. Static routes that match the Excluded Networks table will not be advertised. When this box is checked, all learnt OSPF routes will be advertised. Filter Mode This option selects the route import filter mode. None: all BGP routes will be accepted. Accept: Routes in "Restricted Networks" will be accepted, routes not in the list will be rejected. Reject: Routes in "Restricted Networks" will be rejected, routes not in the list will be accepted. https://www.peplink.com 113 Copyright @ 2019 Pepwave Restricted Networks This specifies the network in the route import entry Exact Match: When this box is checked, only routes with the same Networks and Subnet Mask will be filtered. Otherwise, routes within the Networks and Subnet will be filtered. Export to other BGP Profile When this box is checked, routes learnt from this BGP profile will export to other BGP profiles. Export to OSPF When this box is checked, routes learnt from this BGP profile will export to the OSPF routing protocol. 22 Remote User Access A remote-access VPN connection allows an individual user to connect to a private business network from a remote location using a laptop or desktop computer connected to the Internet. Networks routed by a Peplink router can be remotely accessed via OpenVPN, L2TP with IPsec or PPTP. To configure this feature, navigate to Network > Remote User Access and choose the required VPN type. https://www.peplink.com 114 Copyright @ 2019 Pepwave 22.1 L2TP with IPsec L2TP with IPsec Remote User Access Settings Pre-shared Key Enter your pre shared key in the text field. Please note that remote devices will need this preshared key to access the Balance. Listen On This setting is for specifying the WAN IP addresses that allow remote user access. Disable Weak Ciphers Click the When checked, weak ciphers such as 3DES will be disabled. button to show and enable this option. Continue to configure the authentication method. 22.2 OpenVPN Select OpenVPN and continue to configure the authentication method. The OpenVPN Client profile can be downloaded from the Status > device page after the configuration has been saved. You have a choice between 2 different OpenVPN Client profiles.
"route all traffic" profile
"split tunnel" profile Using this profile, VPN clients will send all the traffic through the OpenVPN tunnel Using this profile, VPN clients will ONLY send those traffic designated to the untagged LAN and VLAN segment through the OpenVPN tunnel. https://www.peplink.com 115 Copyright @ 2019 Pepwave 22.3 PPTP No additional configuration required. The Point-to-Point Tunneling Protocol (PPTP) is an obsolete method for implementing virtual private networks. PPTP has many well known security issues Continue to configure authentication method. 22.4 Authentication Methods Authentication Method Connect to Network Select the VLAN network for remote users to enable remote user access on. Authentication Determine the method of authenticating remote users User accounts:
This setting allows you to define the Remote User Accounts. Click Add to input username and password to create an account. After adding the user accounts, you can click on a username to edit the account password. Note:
The username must contain lowercase letters, numerics, underscore(_), dash(-), at sign(@), and period(.) only. The password must be between 8 and 12 characters long. LDAP Server:
https://www.peplink.com 116 Copyright @ 2019 Pepwave Enter the matching LDAP server details to allow for LDAP server authentication. Radius Server:
Enter the matching Radius server details to allow for Radius server authentication. Active Directory:
Enter the matching Active Directory details to allow for Active Directory server authentication. https://www.peplink.com 117 Copyright @ 2019 Pepwave 23 Miscellaneous Settings The miscellaneous settings include configuration for High Availability, Certificate Manager, service forwarding, service passthrough, GPS forwarding, GPIO, Groupe Networks and SIM Toolkit (depending the feature is supported on the model of Peplin router that is being used). 23.1 High Availability Many Pepwave routers support high availability (HA) configurations via an open standard virtual router redundancy protocol (VRRP, RFC 3768). In an HA configuration, two Pepwave routers provide redundancy and failover in a master-slave arrangement. In the event that the master unit is down, the slave unit becomes active. High availability will be disabled automatically where there is a drop-in connection configured on a LAN bypass port. In the diagram, the WAN ports of each Pepwave router connect to the router and to the modem. Both Pepwave routers connect to the same LAN switch via a LAN port. An elaboration on the technical details of the implementation of the virtual router redundancy protocol (VRRP, RFC 3768) by Pepwave routers follows:
In an HA configuration, the two Pepwave routers communicate with each other using VRRP over the LAN. The two Pepwave routers broadcast heartbeat signals to the LAN at a frequency of one heartbeat signal per second. In the event that no heartbeat signal from the master Pepwave router is received in 3 seconds (or longer) since the last heartbeat signal, the slave Pepwave router becomes active. The slave Pepwave router initiates the WAN connections and binds to a previously configured LAN IP address. At a subsequent point when the master Pepwave router recovers, it will once again https://www.peplink.com 118 Copyright @ 2019 Pepwave become active. You can configure high availability at Advanced>Misc. Settings>High Availability. Interface for Master Router Interface for Slave Router High Availability Enable Checking this box specifies that the Pepwave router is part of a high availability configuration. Group Number This number identifies a pair of Pepwave routers operating in a high availability configuration. The two Pepwave routers in the pair must have the same Group Number value. Preferred Role This setting specifies whether the Pepwave router operates in master or slave mode. Click the corresponding radio button to set the role of the unit. One of the units in the pair must be configured as the master, and the other unit must be configured as the slave. Resume Master Role Upon Recovery This option is displayed when Master mode is selected in Preferred Role. If this option is enabled, once the device has recovered from an outage, it will take over and resume its Master role from the slave unit. Configuration Sync. This option is displayed when Slave mode is selected in Preferred Role. If this option is enabled and the Master Serial Number entered matches with the actual master unit's, the master unit will automatically transfer the configuration to this unit. Please make sure the LAN IP Address and the Subnet Mask fields are set correctly in the LAN settings page. You can refer to the Event Log for the configuration synchronization status. Master Serial Number If Configuration Sync. is checked, the serial number of the master unit is required here for the feature to work properly. Virtual IP The HA pair must share the same Virtual IP. The Virtual IP and the LAN Administration IP must be under the same network. https://www.peplink.com 119 Copyright @ 2019 Pepwave Administration This setting specifies a LAN IP address to be used for accessing administration functionality. This address should be unique within the LAN. LAN IP Subnet Mask This setting specifies the subnet mask of the LAN. Important Note For Pepwave routers in NAT mode, the virtual IP (VIP) should be set as the default gateway for all hosts on the LAN segment. For example, a firewall sitting behind the Pepwave router should set its default gateway as the virtual IP instead of the IP of the master router. In drop-in mode, no other configuration needs to be set. https://www.peplink.com 120 Copyright @ 2019 Pepwave Please note that the drop-in WAN cannot be configured as a LAN bypass port while it is configured for high availability. 23.2 Certificate Manager This section allows for certificates to be assigned to the local VPN, Web Admin SSL, Captive Portal SSL, OpenVPN CA, Wi-Fi WAN Client certificate and Wi-Fi WAN CA Certificate. https://www.peplink.com 121 Copyright @ 2019 Pepwave The following knowledge base article describes how to create self-signed certificates and import it to a Peplink Product. https://forum.peplink.com/t/how-to-create-a-self-signed-certificate-and-import-it-to-a-peplink-
product/
23.3 Service Forwarding Service forwarding settings are located at Advanced>Misc. Settings>Service Forwarding. Service Forwarding SMTP Forwarding When this option is enabled, all outgoing SMTP connections destined for any host at TCP port 25 will be intercepted. These connections will be redirected to a specified SMTP server and port number. SMTP server settings for each WAN can be specified after selecting Enable. Web Proxy Forwarding DNS Forwarding When this option is enabled, all outgoing connections destined for the proxy server specified in Web Proxy Interception Settings will be intercepted. These connections will be redirected to a specified web proxy server and port number. Web proxy interception settings and proxy server settings for each WAN can be specified after selecting Enable. When this option is enabled, all outgoing DNS lookups will be intercepted and redirected to the built-in DNS name server. If any LAN device is using the DNS name servers of a WAN connection, you may want to enable this option to enhance the DNS availability without modifying the DNS server setting of the clients. The built-in DNS name server will distribute DNS lookups to corresponding DNS servers of all available WAN connections. In this case, DNS service will not be interrupted, even if any WAN connection is down. Custom Service Forwarding When custom service forwarding is enabled, outgoing traffic with the specified TCP port will be forwarded to a local or remote server by defining its IP address and port number. https://www.peplink.com 122 Copyright @ 2019 Pepwave 23.3.1 SMTP Forwarding Some ISPs require their users to send e-mails via the ISPs SMTP server. All outgoing SMTP connections are blocked except those connecting to the ISPs. Pepwave routers support intercepting and redirecting all outgoing SMTP connections (destined for TCP port 25) via a WAN connection to the WANs corresponding SMTP server. To enable the feature, select Enable under SMTP Forwarding Setup. Check Enable Forwarding for the WAN connection(s) that needs forwarding. Under SMTP Server, enter the ISPs e-mail server host name or IP address. Under SMTP Port, enter the TCP port number for each WAN. The Pepwave router will intercept SMTP connections. Choose a WAN port according to the outbound policy, and then forward the connection to the SMTP server if the chosen WAN has enabled forwarding. If the forwarding is disabled for a WAN connection, SMTP connections for the WAN will be simply be forwarded to the connections original destination. If you want to route all SMTP connections only to particular WAN connection(s), you should create a custom rule in outbound policy (see Section 14.2). Note 23.3.2 Web Proxy Forwarding When this feature is enabled, the Pepwave router will intercept all outgoing connections https://www.peplink.com 123 Copyright @ 2019 Pepwave destined for the proxy server specified in Web Proxy Interception Settings, choose a WAN connection with reference to the outbound policy, and then forward them to the specified web proxy server and port number. Redirected server settings for each WAN can be set here. If forwarding is disabled for a WAN, web proxy connections for the WAN will be simply forwarded to the connections original destination. 23.3.3 DNS Forwarding When DNS forwarding is enabled, all clients outgoing DNS requests will also be intercepted and forwarded to the built-in DNS proxy server. 23.3.4 Custom Service Forwarding After clicking the enable checkbox, enter your TCP port for traffic heading to the router, and then specify the IP Address and Port of the server you wish to forward to the service to. 23.4 Service Passthrough Service passthrough settings can be found at Advanced>Misc. Settings>Service Passthrough. Some Internet services need to be specially handled in a multi-WAN environment. Pepwave routers can handle these services such that Internet applications do not notice being behind a multi-WAN router. Settings for service passthrough support are available here. https://www.peplink.com 124 Copyright @ 2019 Pepwave Service Passthrough Support Session initiation protocol, aka SIP, is a voice-over-IP protocol. The Pepwave router can act as a SIP application layer gateway (ALG) which binds connections for the same SIP session to the same WAN connection and translate IP address in the SIP packets correctly in NAT mode. Such passthrough support is always enabled, and there are two modes for selection:
Standard Mode and Compatibility Mode. If your SIP servers signal port number is non-standard, you can check the box Define custom signal ports and input the port numbers to the text boxes. H.323 With this option enabled, protocols that provide audio-visual communication sessions will be defined on any packet network and pass through the Pepwave router. FTP sessions consist of two TCP connections; one for control and one for data. In a multi-WAN situation, they must be routed to the same WAN connection. Otherwise, problems will arise in transferring files. By default, the Pepwave router monitors TCP control connections on port 21 for any FTP connections and binds TCP connections of the same FTP session to the same WAN. If you have an FTP server listening on a port number other than 21, you can check Define custom control ports and enter the port numbers in the text boxes. The Pepwave router monitors outgoing TFTP connections and routes any incoming TFTP data packets back to the client. Select Enable if you want to enable TFTP passthrough support. SIP FTP TFTP IPsec NAT-T This field is for enabling the support of IPsec NAT-T passthrough. UDP ports 500, 4500, and 10000 are monitored by default. You may add more custom data ports that your IPsec system uses by checking Define custom ports. If the VPN contains IPsec site-to-site VPN traffic, check Route IPsec Site-to-Site VPN and choose the WAN connection to route the traffic to. https://www.peplink.com 125 Copyright @ 2019 Pepwave 23.5 UART Selected Pepwave MAX routers feature a RS-232 serial interface on the built-in terminal block. The RS-232 serial interface can be used to connect to a serial device and make it accessible over an TCP/IP network. The serial interface can be enabled and parameters can be set on the web admin page under Advanced > UART. Make sure they match the serial device you are connecting to. https://www.peplink.com 126 Copyright @ 2019 Pepwave
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There are 4 pins i.e. TX, RX, RTS, CTS on the terminal block for serial connection and they correspond to the pins in a DB-9 connector as follows:
DB-9 Pepwave MAX Terminal Block Pin 1 Pin 2 Rx (rated -+25V) Pin 3 Tx (rated -+12V) Pin 4 Pin 5 Pin 6 Pin 7 RTS Pin 8 CTS Pin 9 The RS232 serial interface is not an isolated RS232. External galvanic isolation may be added if required. Be sure to check whether your serial cable is a null modem cable, commonly known as crossover cable, or a straight through cable. If in doubt, swap Rx and Tx, and RTS and CTS, at the other end and give it another go. Once connected, your serial device should be accessible on your Pepwave MAX router LAN IP address at the specified TCP port. https://www.peplink.com 127 Copyright @ 2019 Pepwave 23.6 GPS Forwarding Using the GPS forwarding feature, some Pepwave routers can automatically send GPS reports to a specified server. To set up GPS forwarding, navigate to Advanced>GPS Forwarding. GPS Forwarding Enable Check this box to turn on GPS forwarding. Server Enter the name/IP address of the server that will receive GPS data. Also specify a port number, protocol (UDP or TCP), and a report interval of between 1 and 10 seconds. Click to save these settings. GPS Report Format Choose from NMEA or TAIP format for sending GPS reports. NMEA Sentence Type If youve chosen to send GPS reports in NMEA format, select one or more sentence types for sending the data (GPRMC, GPGGA, GPVTG, GPGSA, and GPGSV). Vehicle ID The vehicle ID will be appended in the last field of the NMEA sentence. Note that the NMEA sentence will become customized and non-standard. TAIP Sentence Type/TAIP ID
(optional) If youve chosen to send GPS reports in TAIP format, select one or more sentence types for sending the data (PVPosition / Velocity Solution and CPCompact Velocity Solution). You can also optionally include an ID number in the TAIP ID field. 23.7 Ignition Sensing Ignition Sensing detects the ignition signal status of a vehicle it is installed in. https://www.peplink.com 128 Copyright @ 2019 Pepwave This feature allows the cellular router to start up or shut down when the engine of that vehicle is started or turned off. The time delay setting between ignition off and power down of the router is a configurable setting, which allows the router to stay on for a period of time after the engine of a vehicle is turned off. Ignition Sensing installation Functoin I/O optional*
Colour Wire Brown IGN I/P connected to positive feed on the ignition . Orange DC IN
DC IN connected to permanent negative feed (ground) Black connected to permanent positive feed (power 12VDC, 2A)). Red
* Currently not functional; will be used for additional features in future firmware https://www.peplink.com 129 Copyright @ 2019 Pepwave Connectivity diagram for devices with 4-pin connector Connectivity diagram for devices with terminal block connection https://www.peplink.com 130 Copyright @ 2019 Pepwave GPIO Menu The Ignition Sensing options are available in Advanced > GPIO The configurable option for Ignition Input is Delay; the time in seconds the router stays powered on after the ignition is turned off. Still under development:
O/P (connected to I/O pin on 4 pin connector) can be configured as a digital input, digital output or analog input. Digital Input - the connection supports input sensing; it reads the external input and determine iteh settings should be 'High' (on) or 'Low' (off). Digital Output - when there is a healthy WAN connection, the output pin is marked as 'High'
(on). Otherwise, it will be marked as 'Low' (off) Analog Input - to be confirmed. In most cases should read the external input and determine the voltage level. https://www.peplink.com 131 Copyright @ 2019 Pepwave 23.8 Grouped Networks Advanced > Grouped Networks allows to configure destination networks in grouped format. Select Add group to create a new group with single IPaddresses or subnets from different VLANs. The created network groups can be used in outbound policies, firewall rules. 23.9 SIM Toolkit The SIM Toolkit, accessible via Advanced > Misc Settings > SIM Toolkit, supports two functionalities, USSD and SMS. USSD Unstructured Supplementary Service Data (USSD) is a protocol used by mobile phones to communicate with their service providers computers. One of the most common uses is to query the available balance. https://www.peplink.com 132 Copyright @ 2019 Pepwave Enter your USSD code under the USSD Code text field and click Submit. You will receive a confirmation. To check the SMS response, click Get. After a few minutes you will receive a response to your USSD code SMS The SMS option allows you to read SMS (text) messages that have been sent to the SIM https://www.peplink.com 133 Copyright @ 2019 Pepwave in your Peplink router. https://www.peplink.com 134 Copyright @ 2019 Pepwave 24 AP - access point 25 AP Controller Supported on selected Pepwave models and higher, the AP controller acts as a centralized controller of Pepwave Access Points. With this feature, users can customize and manage up to 30 Access Points from a single Pepwave router interface. To configure, navigate to the AP tab. and teh following screen appears. AP Controller AP Management The AP controller for managing Pepwave APs can be enabled by checking this box. When this option is enabled, the AP controller will wait for management connections originating from APs over the LAN on TCP and UDP port 11753. It will also wait for captive portal connections on TCP port 443. An extended DHCP option, CAPWAP Access Controller addresses (field 138), will be added to the DHCP server. A local DNS record, AP Controller, will be added to the local DNS proxy. Sync Method As soon as possible Progressively One at a time Permitted AP Access points to manage can be specified here. If Any is selected, the AP controller will manage any AP that reports to it. If Approved List is selected, only APs with serial numbers listed in the provided text box will be managed. 25.1 Wireless SSID Current SSID information appears in the SSID section. To edit an existing SSID, click its name in the list. To add a new SSID, click Add. Note that the following settings vary by model. The below settings ishows a new SSID window with Advanced Settings enabled (these are available by selecting the question mark in the top right corner). https://www.peplink.com 135 Copyright @ 2019 Pepwave SSID Settings SSID This setting specifies the SSID of the virtual AP to be scanned by Wi-Fi clients. Enable Click the drop-down menu to apply a time schedule to this interface VLAN This setting specifies the VLAN ID to be tagged on all outgoing packets generated from this wireless network (i.e., packets that travel from the Wi-Fi segment through the Pepwave AP One unit to the Ethernet segment via the LAN port). The default value of this setting is 0, which means VLAN tagging https://www.peplink.com 136 Copyright @ 2019 Pepwave is disabled (instead of tagged with zero). Broadcast SSID This setting specifies whether or not Wi-Fi clients can scan the SSID of this wireless network. Broadcast SSID is enabled by default. Data Rate A Select Auto to allow the Pepwave router to set the data rate automatically, or select Fixed and choose a rate from the displayed drop-down menu. Multicast FilterA This setting enables the filtering of multicast network traffic to the wireless SSID. Multicast RateA This setting specifies the transmit rate to be used for sending multicast network traffic. The selected Protocol and Channel Bonding settings will affect the rate options and values available here. IGMP Snooping A To allow the Pepwave router to listen to internet group management protocol
(IGMP) network traffic, select this option. DHCP Option 82 A If you use a distributed DHCP server/relay environment, you can enable this option to provide additional information on the manner in which clients are physically connected to the network. Layer 2 Isolation A Layer 2 refers to the second layer in the ISO Open System Interconnect model. When this option is enabled, clients on the same VLAN, SSID, or subnet are isolated to that VLAN, SSID, or subnet, which can enhance security. Traffic is passed to upper communication layer(s). By default, the setting is disabled. Maximum Number of Clients Indicate the maximum number of clients that should be able to connect to each frequency. A - Advanced feature. Click the button on the top right-hand corner to activate. Security Settings This setting configures the wireless authentication and encryption methods. Available options are :
Open (No Encryption) WPA2 Enterprise WPA/WPA2 - Personal (TKIP/AES: CCMP) WPA/WPA2 Enterprise WPA2 -Personal (AES:CCMP) Security Policy https://www.peplink.com 137 Copyright @ 2019 Pepwave When WPA/WPA2 - Enterprise is configured, RADIUS-based 802.1 x authentication is enabled. Under this configuration, the Shared Key option should be disabled. When using this method, select the appropriate version using the V1/V2 controls. The security level of this method is known to be very high. When WPA/WPA2- Personal is configured, a shared key is used for data encryption and authentication. When using this configuration, the Shared Key option should be enabled. Key length must be between eight and 63 characters
(inclusive). The security level of this method is known to be high. Access Control Restricted Mode The settings allow administrator to control access using MAC address filtering. Available options are None, Deny all except listed, and Accept all except listed MAC Address List Connection coming from the MAC addresses in this list will be either denied or accepted based on the option selected in the previous field. If more than one MAC address needs to be entered, you can use a carriage return to separate them. RADIUS Server Settings Host Enter the IP address of the primary RADIUS server and, if applicable, the secondary RADIUS server. https://www.peplink.com 138 Copyright @ 2019 Pepwave Secret Enter the RADIUS shared secret for the primary server and, if applicable, the secondary RADIUS server. Authentication Port In field, enter the UDP authentication port(s) used by your RADIUS server(s) or click the Default button to enter 1812. Accounting Port In field, enter the UDP accounting port(s) used by your RADIUS server(s) or click the Default button to enter 1813. NAS-Identifier Choose between Device Name, LAN MAC address, Device Serial Number and Custom Value 25.2 Settings On many Pepwave models, the AP settings screen (AP>Settings) looks similar to the example below:
https://www.peplink.com 139 Copyright @ 2019 Pepwave AP Settings SSID These buttons specify which wireless networks will use this AP profile. You can also select the frequencies at which each network will transmit. Please note that the Peplink Balance does not detect whether the AP is capable of transmitting at both frequencies. Instructions to transmit at unsupported frequencies will be ignored by the AP. Operating Country This drop-down menu specifies the national / regional regulations which the AP should follow. If a North American region is selected, RF channels 1 to 11 will be available and the maximum transmission power will be 26 dBm (400 mW). If European region is selected, RF channels 1 to 13 will be available. https://www.peplink.com 140 Copyright @ 2019 Pepwave The maximum transmission power will be 20 dBm (100 mW). NOTE: Users are required to choose an option suitable to local laws and regulations. Per FCC regulation, the country selection is not available on all models marketed in US. All US models are fixed to US channels only. Preferred Frequency These buttons determine the frequency at which access points will attempt to broadcast. This feature will only work for APs that can transmit at both 5.4GHz and 5GHz frequencies. Protocol This section displays the 2.4 GHz protocols your APs are using. Channel Width There are three options: 20 MHz, 20/40 MHz, and 40 MHz. With this feature enabled, the Wi-Fi system can use two channels at once. Using two channels improves the performance of the Wi-Fi connection. Channel Auto Channel Update Output PowerA This drop-down menu selects the 802.11 channel to be utilized. Available options are from 1 to 11 and from 1 to 13 for the North America region and Europe region, respectively. (Channel 14 is only available when the country is selected as Japan with protocol 802.11b.) If Auto is set, the system will perform channel scanning based on the scheduled time set and choose the most suitable channel automatically. Indicate the time of day at which update automatic channel selection. This drop-down menu determines the power at which the AP under this profile will broadcast. When fixed settings are selected, the AP will broadcast at the specified power level, regardless of context. When Dynamic settings are selected, the AP will adjust its power level based on its surrounding APs in order to maximize performance. The Dynamic: Auto setting will set the AP to do this automatically. Otherwise, the Dynamic: Manual setting will set the AP to dynamically adjust only of instructed to do so. If you have set Dynamic:Manual, you can go to AP>Toolbox>Auto Power Adj. to give your AP further instructions. If you click the Boost checkbox, the AP under this profile will transmit using additional power. Please note that using this option with several APs in close proximity will lead to increased interference. Client Signal Strength ThresholdA This field determines that maximum signal strength each individual client will receive. The measurment unit is megawatts. Max number of ClientsA This field determines the maximum clients that can be connected to APs under this profile. Management VLAN ID This field specifies the VLAN ID to tag to management traffic, such as AP to AP controller communication traffic. The value is 0 by default, meaning that no VLAN tagging will be applied. NOTE: change this value with caution as alterations may result in loss of connection to the AP controller. https://www.peplink.com 141 Copyright @ 2019 Pepwave Operating Schedule Choose from the schedules that you have defined in System>Schedule. Select the schedule for the integrated AP to follow from the drop-down menu. Beacon RateA This drop-down menu provides the option to send beacons in different transmit bit rates. The bit rates are 1Mbps, 2Mbps, 5.5Mbps, 6Mbps, and 11Mbps. Beacon IntervalA This drop-down menu provides the option to set the time between each beacon send. Available options are 100ms, 250ms, and 500ms. DTIMA This field provides the option to set the frequency for beacon to include delivery traffic indication messages (DTIM). The interval unit is measured in milliseconds. RTS ThresholdA This field provides the option to set the minimum packet size for the unit to send an RTS using the RTS/CTS handshake. Setting 0 disables this feature. Fragmentation ThresholdA Distance/Time ConverterA Determines the maximum size (in bytes) that each packet fragment will be broken down into. Set 0 to disable fragmentation. Select the distance you want your Wi-Fi to cover in order to adjust the below parameters. Default values are recommended. Slot TimeA This field provides the option to modify the unit wait time before it transmits. The default value is 9s. ACK TimeoutA This field provides the option to set the wait time to receive acknowledgement packet before doing retransmission. The default value is 48s. Frame AggregationA With this feature enabled, throughput will be increased by sending two or more data frames in a single transmission. Frame Length This field is only available when Frame Aggregation is enabled. It specifies the frame length for frame aggregation. By default, it is set to 50000. A - Advanced feature. Click the button on the top right-hand corner to activate. Web Administration Settings Enable Check the box to allow the Pepwave router to manage the web admin access information of the AP. Web Access These buttons specify the web access protocol used for accessing the web https://www.peplink.com 142 Copyright @ 2019 Pepwave Protocol admin of the AP. The two available options are HTTP and HTTPS. Management Port This field specifies the management port used for accessing the device. HTTP to HTTPS Redirection This option will be available if you have chosen HTTPS as the Web Access Protocol. With this enabled, any HTTP access to the web admin will redirect to HTTPS automatically. Admin User Name This field specifies the administrator username of the web admin. It is set as admin by default. Admin Password This field allows you to specify a new administrator password. You may also click the Generate button and let the system generate a random password automatically. Navigating to AP>Settings on some Pepwave models displays a screen similar to the one shown below:
Wi-Fi Radio Settings Operating Country This option sets the country whose regulations the Pepwave router follows. Wi-Fi Antenna Choose from the router's internal or optional external antennas, if so equipped. Per FCC regulations, the country selection is not available on all models marketed in the US. All US models are fixed to US channels only. Important Note https://www.peplink.com 143 Copyright @ 2019 Pepwave Wi-Fi AP Settings Protocol This option allows you to specify whether 802.11b and/or 802.11g client association requests will be accepted. Available options are 802.11ng and 802.11na. By default, 802.11ng is selected. Channel This option allows you to select which 802.11 RF channel will be used. Channel 1 (2.412 GHz) is selected by default. Channel Width Auto (20/40 MHz) and 20 MHz are available. The default setting is Auto
(20/40 MHz), which allows both widths to be used simultaneously. Output Power This option is for specifying the transmission output power for the Wi-Fi AP. There are 4 relative power levels available Max, High, Mid, and Low. The actual output power will be bound by the regulatory limits of the selected country. Beacon RateA This option is for setting the transmit bit rate for sending a beacon. By default, 1Mbps is selected. Beacon IntervalA This option is for setting the time interval between each beacon. By default, 100ms is selected. DTIMA This field allows you to set the frequency for the beacon to include a delivery traffic indication message. The interval is measured in milliseconds. The default value is set to 1 ms. Slot TimeA This field is for specifying the wait time before the Router transmits a packet. By default, this field is set to 9 s. ACK TimeoutA This field is for setting the wait time to receive an acknowledgement packet before performing a retransmission. By default, this field is set to 48 s. Frame AggregationA This option allows you to enable frame aggregation to increase transmission throughput. Guard IntervalA This setting allows choosing a short or long guard period interval for your transmissions. A - Advanced feature, please click the button on the top right-hand corner to activate. 26 AP Controller Status 26.1 Info A comprehensive overview of your AP can be accessed by navigating to AP > Controller Status > Info. https://www.peplink.com 144 Copyright @ 2019 Pepwave AP Controller License Limit This field displays the maximum number of AP your Balance router can control. You can purchase licenses to increase the number of AP you can manage. Frequency Underneath, there are two check boxes labeled 2.4 Ghz and 5 Ghz. Clicking either box will toggle the display of information for that frequency. By default, the graphs display the number of clients and data usage for both 2.4GHz and 5 GHz frequencies. SSID The colored boxes indicate the SSID to display information for. Clicking any colored box will toggle the display of information for that SSID. By default, all the graphs show information for all SSIDs. No. of APs This pie chart and table indicates how many APs are online and how many are offline. No.of Clients This graph displays the number of clients connected to each network at any given time. Mouse over any line on the graph to see how many clients connected to a specific SSID for that point in time. Data Usage This graph enables you to see the data usage of any SSID for any given time period. Mouse over any line on the graph to see the data usage by each SSID for that point in time. Use the buttons next to Zoom to select the time scale you wish to view. In addition, you could use the sliders at the bottom to further refine your timescale. https://www.peplink.com 145 Copyright @ 2019 Pepwave This event log displays all activity on your AP network, down to the client level. Click View Alerts to see only alerts, and click the More link for additional records. Events 26.2 Access Point (Usage) A detailed breakdown of data usage for each AP is available at AP > Controller Status >
Access Point. Usage AP Name/Serial Number This field enables you to quickly find your device if you know its name or serial number. Fill in the field to begin searching. Partial names and serial numbers are supported. Online Status This button toggles whether your search will include offline devices. Managed Wireless This table shows the detailed information on each AP, including channel, https://www.peplink.com 146 Copyright @ 2019 Pepwave Devices number of clients, upload traffic, and download traffic. Click the blue arrows at the left of the table to expand and collapse information on each device group. You could also expand and collapse all groups by using the buttons. On the right of the table, you will see the following icons:
. Click the icon to see a usage table for each client:
Click the icon to configure each client For easier network management, you can give each client a name and designate its location. You can also designate which firmware pack (if any) this client will follow, as well as the channels on which the client will broadcast. Click the icon to see a graph displaying usage:
https://www.peplink.com 147 Copyright @ 2019 Pepwave Click any point in the graphs to display detailed usage and client information for that device, using that SSID, at that point in time. On the Data Usage by menu, you can display the information by SSID or by AP send/receive rate. Click the Event tab next to Wireless Usage to view a detailed event log for that particular device:
26.3 Wireless SSID In-depth SSID reports are available under AP > Controller Status > Wireless SSID. https://www.peplink.com 148 Copyright @ 2019 Pepwave Click the blue arrow on any SSID to obtain more detailed usage information on each SSID. 26.4 Wireless Client You can search for specific Wi-Fi users by navigating to AP > Controller Status > Wireless Client. Here, you will be able to see your networks heaviest users as well as search for specific users. Click the icon for additional details about each user:
icon to bookmark specific users, and click the https://www.peplink.com 149 Copyright @ 2019 Pepwave 26.5 Nearby Device A listing of near devices can be accessed by navigating to AP > Controller Status > Nearby Device. https://www.peplink.com 150 Copyright @ 2019 Pepwave Suspected Rogue Devices Hovering over the device MAC address will result in a popup with information on how this device was detected. Click the icons and the device will be moved to the bottom table of identified devices. 26.6 Event Log You can access the AP Controller Event log by navigating to AP > Controller Status > Event Log. https://www.peplink.com 151 Copyright @ 2019 Pepwave This event log displays all activity on your AP network, down to the client level. Use to filter box to search by MAC address, SSID, AP Serial Number, or AP Profile name. Click View Alerts to see only alerts, and click the More link for additional records. Events 27 Toolbox Tools for managing firmware packs can be found at AP>Toolbox. Firmware Packs Here, you can manage the firmware of your AP. Clicking on pack. To receive new firmware packs, you can click Check for Updates to download new packs, or you can click Manual Upload to manually upload a firmware pack. Click Default to define which firmware pack is default. will result in information regarding each firmware https://www.peplink.com 152 Copyright @ 2019 Pepwave 28 System Settings 28.1 Admin Security There are two types of user accounts available for accessing the web admin: admin and user. They represent two user levels: the admin level has full administrative access, while the user level is read-only. The user level can access only the device's status information; users cannot make any changes on the device. A web login session will be logged out automatically when it has been idle longer than the Web Session Timeout. Before the session expires, you may click the Logout button in the web admin to exit the session. 0 hours 0 minutes signifies an unlimited session time. This setting should be used only in special situations, as it will lower the system security level if users do not log out before closing the browser. The default is 4 hours, 0 minutes. For security reasons, after logging in to the web admin Interface for the first time, it is recommended to change the administrator password. Configuring the administration interface to be accessible only from the LAN can further improve system security. Administrative settings configuration is located at System>Admin Security. https://www.peplink.com 153 Copyright @ 2019 Pepwave Admin Settings This field allows you to define a name for this Pepwave router. By default, Router Name is set as MAX_XXXX, where XXXX refers to the last 4 digits of the units serial number. Admin User Name is set as admin by default, but can be changed, if desired. Router Name Admin User Name Confirm Admin Password Read-only User Name Confirm User Password Admin Password This field allows you to specify a new administrator password. This field allows you to verify and confirm the new administrator password. Read-only User Name is set as user by default, but can be changed, if desired. User Password This field allows you to specify a new user password. Once the user password is set, the read-only user feature will be enabled. This field allows you to verify and confirm the new user password. Web Session Timeout This field specifies the number of hours and minutes that a web session can remain idle before the Pepwave router terminates its access to the web admin interface. By default, it is set to 4 hours. Authentication by RADIUS With this box is checked, the web admin will authenticate using an external RADIUS server. Authenticated users are treated as either "admin" with full read-
write permission or user with read-only access. Local admin and user accounts will be disabled. When the device is not able to communicate with the external RADIUS server, local accounts will be enabled again for emergency access. Additional authentication options will be available once this box is checked. Auth Protocol This specifies the authentication protocol used. Available options are MS-CHAP v2 and PAP. Auth Server This specifies the access address and port of the external RADIUS server. This field is for entering the secret key for accessing the RADIUS server. Auth Timeout This option specifies the time value for authentication timeout. This specifies the access address and port of the external accounting server. This field is for entering the secret key for accessing the accounting server. Auth Server Secret Accounting Server Accounting Server Secret https://www.peplink.com 154 Copyright @ 2019 Pepwave Network Connection This option is for specifying the network connection to be used for authentication. Users can choose from LAN, WAN, and VPN connections. CLI SSH The CLI (command line interface) can be accessed via SSH. This field enables CLI support. For additional information regarding CLI, please refer to Section 30.5. CLI SSH Port This field determines the port on which clients can access CLI SSH. CLI SSH Access This menu allows you to choose between granting access to LAN and WAN clients, or to LAN clients only. This option is for specifying the protocol(s) through which the web admin interface can be accessed:
Security HTTP HTTPS HTTP/HTTPS Web Admin Port This field is for specifying the port number on which the web admin interface can be accessed. This option is for specifying the network interfaces through which the web admin interface can be accessed:
Web Admin Access LAN only LAN/WAN If LAN/WAN is chosen, the WAN Connection Access Settings form will be displayed. LAN Connection Access Settings Allowed LAN Networks This field allows you to permit only specific networks or VLANs to access the Web UI. https://www.peplink.com 155 Copyright @ 2019 Pepwave WAN Connection Access Settings This field allows you to restrict web admin access only from defined IP subnets. Any - Allow web admin accesses to be from anywhere, without IP address restriction. Allow access from the following IP subnets only - Restrict web admin access only from the defined IP subnets. When this is chosen, a text input area will be displayed beneath:
The allowed IP subnet addresses should be entered into this text area. Each IP subnet must be in form of w.x.y.z/m, where w.x.y.z is an IP address (e.g., 192.168.0.0), and m is the subnet mask in CIDR format, which is between 0 and 32 inclusively (For example, 192.168.0.0/24). To define multiple subnets, separate each IP subnet one in a line. For example:
192.168.0.0/24 10.8.0.0/16 This is to choose which WAN IP address(es) the web server should listen on. Allowed Source IP Subnets Allowed WAN IP Address(es) 28.2 Firmware 28.2.1 Web admin interface : automatically check for updates Upgrading firmware can be done in one of three ways. Using the routers interface to automatically check for an update, using the routers interface to manually upgrade the firmware, or using InControl2 to push an upgrade to a router. The automatic upgrade can be done from System > Firmware. https://www.peplink.com 156 Copyright @ 2019 Pepwave If an update is found the buttons will change to allow you to Download and Update the firmware. Click on the Download and Upgrade button. A prompt will be displayed advising to download the Current Active Configuration. Please click on the underlined download text. After downloading the current config click the Ok button to start the upgrade process. The router will download and then apply the firmware. The time that this process takes will depend on your internet connections speed. The firmware will now be applied to the router*. The amount of time it takes for the firmware to upgrade will also depend on the router thats being upgraded.
*Upgrading the firmware will cause the router to reboot. 28.2.2 Web admin interface : install updates manually In some cases, a special build may be provided via a ticket or it may be found in the forum. Upgrading to the special build can be done using this method, or using IC2 if you are using that to manage your firmware upgrades. A manual upgrade using the GA firmware posted on https://www.peplink.com 157 Copyright @ 2019 Pepwave the site may also be recommended or required for a couple of reasons. All of the Peplink/Pepwave GA firmware can be found here Navigate to the relevant product line (ie. Balance, Max, FusionHub, SOHO, etc). Some product lines may have a dropdown that lists all of the products in that product line. Here is a screenshot from the Balance line. If the device has more than one firmware version the current hardware revision will be required to know what firmware to download. Navigate to System > Firmware and click the Choose File button under the Manual Firmware Upgrade section. Navigate to the location that the firmware was downloaded to select the
.img file and click the Open button. Click on the Manual Upgrade button to start the upgrade process. A prompt will be displayed advising to download the Current Active Configuration. Please click on the underlined download text. After downloading the current config click the Ok button to start the upgrade process. The firmware will now be applied to the router*. The amount of time it takes for the firmware to upgrade will depend on the router thats being upgraded.
*Upgrading the firmware will cause the router to reboot. 28.2.3 The InControl method Described in this knowledgebase article on our forum. https://www.peplink.com 158 Copyright @ 2019 Pepwave 28.3 Time Time Settings enables the system clock of the Pepwave router to be synchronized with a specified time server. Time settings are located at System>Time. Time Settings Time Zone This specifies the time zone (along with the corresponding Daylight Savings Time scheme). The Time Zone value affects the time stamps in the Pepwave routers event log and e-mail notifications. Check Show all to show all time zone options. Time Server This setting specifies the NTP network time server to be utilized by the Pepwave router. 28.4 Schedule Enable and disable different functions (such as WAN connections, outbound policy, and firewalls at different times, based on a user-scheduled configuration profile. The settings for this are located at System > Schedule Enable scheduling, and then click on your schedule name or on the New Schedule button to begin. https://www.peplink.com 159 Copyright @ 2019 Pepwave Edit Schedule Profile Enabling Click this checkbox to enable this schedule profile. Note that if this is disabled, then any associated features will also have their scheduling disabled. Name Enter your desired name for this particular schedule profile. Schedule Click the drop-down menu to choose pre-defined schedules as your starting point. Please note that upon selection, previous changes on the schedule map will be deleted. Schedule Map Click on the desired times to enable features at that time period. You can hold your mouse for faster entry. 28.5 Email Notification Email notification functionality provides a system administrator with up-to-date information on network status. The settings for configuring email notifications are found at System>Email Notification. https://www.peplink.com 160 Copyright @ 2019 Pepwave Email Notification Settings Email Notification This setting specifies whether or not to enable email notification. If Enable is checked, the Pepwave router will send email messages to system administrators when the WAN status changes or when new firmware is available. If Enable is not checked, email notification is disabled and the Pepwave router will not send email messages. SMTP Server This setting specifies the SMTP server to be used for sending email. If the server requires authentication, check Require authentication. SSL Encryption Check the box to enable SMTPS. When the box is checked, SMTP Port will be changed to 465 automatically. SMTP Port SMTP User Name /
Password Confirm SMTP Password This field is for specifying the SMTP port number. By default, this is set to 25;
when SSL Encryption is checked, the default port number will be set to 465. You may customize the port number by editing this field. Click Default to restore the number to its default setting. This setting specifies the SMTP username and password while sending email. These options are shown only if Require authentication is checked in the SMTP Server setting. This field allows you to verify and confirm the new administrator password. Senders Email Address This setting specifies the email address the Pepwave router will use to send reports. Recipients Email Address This setting specifies the email address(es) to which the Pepwave router will send email notifications. For multiple recipients, separate each email addresses using https://www.peplink.com 161 Copyright @ 2019 Pepwave the enter key. After you have finished setting up email notifications, you can click the Test Email Notification button to test the settings before saving. After Test Email Notification is clicked, you will see this screen to confirm the settings:
Click Send Test Notification to confirm. In a few seconds, you will see a message with detailed test results. 28.6 Event Log Event log functionality enables event logging at a specified remote syslog server. The settings for configuring the remote system log can be found at System>Event Log. https://www.peplink.com 162 Copyright @ 2019 Pepwave Event Log Settings Remote Syslog This setting specifies whether or not to log events at the specified remote syslog server. Remote Syslog Host This setting specifies the IP address or hostname of the remote syslog server. Push Events The Pepwave router can also send push notifications to mobile devices that have our Mobile Router Utility installed. Check the box to activate this feature. For more information on the Router Utility, go to:
www.peplink.com/products/router-utility 28.7 SNMP SNMP or simple network management protocol is an open standard that can be used to collect information about the Pepwave router. SNMP configuration is located at System>SNMP. SNMP Settings SNMP Device Name This field shows the router name defined at System>Admin Security. SNMP Port This option specifies the port which SNMP will use. The default port is 161. SNMPv1 This option allows you to enable SNMP version 1. https://www.peplink.com 163 Copyright @ 2019 Pepwave SNMPv2 This option allows you to enable SNMP version 2. SNMPv3 This option allows you to enable SNMP version 3. To add a community for either SNMPv1 or SNMPv2, click the Add SNMP Community button in the Community Name table, upon which the following screen is displayed:
https://www.peplink.com 164 Copyright @ 2019 Pepwave SNMP Community Settings Community Name This setting specifies the SNMP community name. Allowed Source Subnet Address This setting specifies a subnet from which access to the SNMP server is allowed. Enter subnet address here (e.g., 192.168.1.0) and select the appropriate subnet mask. To define a user name for SNMPv3, click Add SNMP User in the SNMPv3 User Name table, upon which the following screen is displayed:
User Name This setting specifies a user name to be used in SNMPv3. SNMPv3 User Settings This setting specifies via a drop-down menu one of the following valid authentication protocols:
Authentication Protocol NONE MD5 SHA Privacy Protocol NONE DES 28.8 InControl When MD5 or SHA is selected, an entry field will appear for the password. This setting specifies via a drop-down menu one of the following valid privacy protocols:
When DES is selected, an entry field will appear for the password. https://www.peplink.com 165 Copyright @ 2019 Pepwave InControl is a cloud-based service which allows you to manage all of your Peplink and Pepwave devices with one unified system. With it, you can generate reports, gather statistics, and configure your devices automatically. All of this is now possible with InControl. When this check box is checked, the device's status information will be sent to the Peplink InControl system. This device's usage data and configuration will be sent to the system if you enable the features in the system. Alternately, you could also privately host InControl. Simply check the box beside the Privately Host InControl open, and enter the IP Address of your InControl Host. You can sign up for an InControl account at https://incontrol2.peplink.com/. You can register your devices under the account, monitor their status, see their usage reports, and receive offline notifications. 28.9 Configuration Backing up Pepwave router settings immediately after successful completion of initial setup is strongly recommended. The functionality to download and upload Pepwave router settings is found at System>Configuration. Note that available options vary by model. Configuration Restore Configuration to Factory Settings The Restore Factory Settings button is to reset the configuration to factory default settings. After clicking the button, you will need to click the Apply Changes button on the top right corner to make the settings effective. Download Active Configurations Click Download to backup the current active settings. Upload Configurations To restore or change settings based on a configuration file, click Choose File to locate the configuration file on the local computer, and then click Upload. The new https://www.peplink.com 166 Copyright @ 2019 Pepwave settings can then be applied by clicking the Apply Changes button on the page header, or you can cancel the procedure by pressing discard on the main page of the web admin interface. Upload Configurations from High Availability Pair In a high availability (HA) configuration, a Pepwave router can quickly load the configuration of its HA counterpart. To do so, click the Upload button. After loading the settings, configure the LAN IP address of the Pepwave router so that it is different from the HA counterpart. 28.10 Feature Add-ons Some Pepwave routers have features that can be activated upon purchase. Once the purchase is complete, you will receive an activation key. Enter the key in the Activation Key field, click Activate, and then click Apply Changes. 28.11 Reboot This page provides a reboot button for restarting the system. For maximum reliability, the Pepwave router can equip with two copies of firmware. Each copy can be a different version. You can select the firmware version you would like to reboot the device with. The firmware marked with (Running) is the current system boot up firmware. Please note that a firmware upgrade will always replace the inactive firmware partition. 29 Tools 29.1 Ping The ping test tool sends pings through a specific Ethernet interface or a SpeedFusionTM VPN https://www.peplink.com 167 Copyright @ 2019 Pepwave connection. You can specify the number of pings in the field Number of times, to a maximum number of 10 times. Packet Size can be set to a maximum of 1472 bytes. The ping utility is located at System>Tools>Ping, illustrated below:
Tip A system administrator can use the ping utility to manually check the connectivity of a particular LAN/WAN connection. 29.2 Traceroute Test The traceroute test tool traces the routing path to the destination through a particular Ethernet interface or a SpeedFusionTM connection. The traceroute test utility is located at System>Tools>Traceroute. https://www.peplink.com 168 Copyright @ 2019 Pepwave A system administrator can use the traceroute utility to analyze the connection path of a LAN/WAN connection. Tip 29.3 PepVPN Test The PepVPN Test tool can help to test the throughput between different VPN peers. You can define the Test Type, Direction, and Duration of the test, and press Go! to perform the throughput test. The VPN test utility is located at System>Tools>PepVPN Test, illustrated as follows:
29.4 Wake-on-LAN Peplink routers can send special magic packets to any client specified from the Web UI. To access this feature, navigate to System > Tools > Wake-on-LAN https://www.peplink.com 169 Copyright @ 2019 Pepwave Select a client from the drop-down list and click Send to send a magic packet 29.5 CLI (Command Line Interface Support) The CLI (command line interface) can be accessed via SSH. This field enables CLI support. The below settings specify which TCP port and which interface(s) should accept remote SSH CLI access. The user name and password used for remote SSH CLI access are the same as those used for web admin access. https://www.peplink.com 170 Copyright @ 2019 Pepwave 30 Status 30.1 Device System information is located at Status>Device. System Information Router Name This is the name specified in the Router Name field located at System>Admin Security. Model This shows the model name and number of this device. Product Code If your model uses a product code, it will appear here. Hardware This shows the hardware version of this device. https://www.peplink.com 171 Copyright @ 2019 Pepwave Revision Serial Number This shows the serial number of this device. Firmware This shows the firmware version this device is currently running. PepVPN Version This shows the current PepVPN version. Modem Support Version This shows the modem support version. For a list of supported modems, click Modem Support List. InControl Managed Configuration InControl Managed Configurations (firmware, VLAN, Captive Portal, etcetera) Host Name The host name assigned to the Pepwave router appears here. Uptime This shows the length of time since the device has been rebooted. System Time This shows the current system time. OpenVPN Client Profile Link to download OpenVpn Client profile when this is enabled in Remote User Access The Download link is for exporting a diagnostic report file required for system investigation. Click Turn on to enable remote assistance. The second table shows the MAC address of each LAN/WAN interface connected. To view your devices End User License Agreement (EULA), click Legal. Diagnostic Report Remote Assistance 30.2 GPS Data GPS enabled models automatically store up to seven days of GPS location data in GPS https://www.peplink.com 172 Copyright @ 2019 Pepwave eXchange format (GPX). To review this data using third-party applications, click Status>Device and then download your GPX file. The Pepwave GPS enabled devices export real-time location data in NMEA format through the LAN IP address at TCP port 60660. It is accessible from the LAN or over a SpeedFusion connection. To access the data via a virtual serial port, install a virtual serial port driver. Visit http://www.peplink.com/index.php?view=faq&id=294 to download the driver. 30.3 Active Sessions Information on active sessions can be found at Status>Active Sessions>Overview. This screen displays the number of sessions initiated by each application. Click on each service listing for additional information. This screen also indicates the number of sessions initiated by each WAN port. In addition, you can see which clients are initiating the most sessions. You can also perform a filtered search for specific sessions. You can filter by subnet, port, protocol, and interface. To perform a search, navigate to Status>Active Sessions>Search. https://www.peplink.com 173 Copyright @ 2019 Pepwave This Active Sessions section displays the active inbound/outbound sessions of each WAN connection on the Pepwave router. A filter is available to sort active session information. Enter a keyword in the field or check one of the WAN connection boxes for filtering. 30.4 Client List The client list table is located at Status>Client List. It lists DHCP and online client IP addresses, names (retrieved from the DHCP reservation table or defined by users), current download and upload rate, and MAC address. Clients can be imported into the DHCP reservation table by clicking the right. You can update the record after import by going to Network>LAN. button on the If the PPTP server (see Section 19.2), SpeedFusionTM (see Section 12.1), or AP controller
(see Section 20) is enabled, you may see the corresponding connection name listed in the Name field. https://www.peplink.com 174 Copyright @ 2019 Pepwave 30.5 WINS Client The WINS client list table is located at Status>WINS Client. The WINS client table lists the IP addresses and names of WINS clients. This option will only be available when you have enabled the WINS server (navigation:
Network>Interfaces>LAN). The names of clients retrieved will be automatically matched into the Client List (see previous section). Click Flush All to flush all WINS client records. 30.6 UPnP / NAT-PMP The table that shows the forwarded ports under UPnP and NAT-PMP protocols is located at Status>UPnP/NAT-PMP. This section appears only if you have enabled UPnP / NAT-PMP as mentioned in Section 16.1.1. Click records, click Delete All on the right-hand side below the table. to delete a single UPnP / NAT-PMP record in its corresponding row. To delete all https://www.peplink.com 175 Copyright @ 2019 Pepwave Important Note UPnP / NAT-PMP records will be deleted immediately after clicking the button need to click Save or Confirm. or Delete All, without the 30.7 OSPF & RIPv2 Shows status of OSPF and RIPv2 30.8 BGP Shows status of BGP 30.9 SpeedFusion Status Current SpeedFusionTM status information is located at Status>SpeedFusionTM. Details about SpeedFusionTM connection peers appears as below:
Click on the corresponding peer name to explore the WAN connection(s) status and subnet information of each VPN peer. https://www.peplink.com 176 Copyright @ 2019 Pepwave Click the information for each WAN connection. button for a chart displaying real-time throughput, latency, and drop-rate When pressing the button, the following menu will appear:
https://www.peplink.com 177 Copyright @ 2019 Pepwave The Speedfusion status page shows all related information about the PepVPN connection. This screen also allows you to run PepVPN Tests allowing throughput tests. 30.10 Event Log Event log information is located at Status>Event Log. https://www.peplink.com 178 Copyright @ 2019 Pepwave The log section displays a list of events that has taken place on the Pepwave router. Check Auto Refresh to refresh log entries automatically. Click the Clear Log button to clear the log. https://www.peplink.com 179 Copyright @ 2019 Pepwave 31 WAN Quality The Status > WAN Quality allow sto show detailed information about each connected WAN connection. For cellular connections it shows signal strength, quality, throughput and latency for the past hour. 32 Usage Reports This section shows bandwidth usage statistics and is located at Status > Usage Reports Bandwidth usage at the LAN while the device is switched off (e.g., LAN bypass) is neither https://www.peplink.com 180 Copyright @ 2019 Pepwave recorded nor shown. 32.1 Real-Time The Data transferred since installation table indicates how much network traffic has been processed by the device since the first bootup. The Data transferred since last reboot table indicates how much network traffic has been processed by the device since the last bootup. https://www.peplink.com 181 Copyright @ 2019 Pepwave 32.2 Hourly This page shows the hourly bandwidth usage for all WAN connections, with the option of viewing each individual connection. Select the desired connection to check from the drop-
down menu. https://www.peplink.com 182 Copyright @ 2019 Pepwave 32.3 Daily This page shows the daily bandwidth usage for all WAN connections, with the option of viewing each individual connection. Select the connection to check from the drop-down menu. If you have enabled the Bandwidth Monitoring feature, the Current Billing Cycle table for that WAN connection will be displayed. Click on a date to view the client bandwidth usage of that specific date. This feature is not available if you have selected to view the bandwidth usage of only a particular WAN connection. The scale of the graph can be set to display megabytes (MB) or gigabytes (GB). All WAN Daily Bandwidth Usage 32.4 Monthly This page shows the monthly bandwidth usage for each WAN connection. If you have enabled the Bandwidth Monitoring feature, you can check the usage of each particular connection https://www.peplink.com 183 Copyright @ 2019 Pepwave and view the information by Billing Cycle or by Calendar Month. Click the first two rows to view the client bandwidth usage in the last two months. This feature is not available if you have chosen to view the bandwidth of an individual WAN connection. The scale of the graph can be set to display megabytes (MB) or gigabytes (GB). All WAN Monthly Bandwidth Usage https://www.peplink.com 184 Copyright @ 2019 Pepwave Ethernet WAN Monthly Bandwidth Usage Tip By default, the scale of data size is in MB. 1GB equals 1024MB. https://www.peplink.com 185 Copyright @ 2019 Pepwave Appendix A. Restoration of Factory Defaults To restore the factory default settings on a Pepwave router, follow the steps below:
1. Locate the reset button on the front or back panel of the Pepwave router. 2. With a paperclip, press the reset button and hold it for at least 10 seconds, until the unit reboots itself. After the Pepwave router finishes rebooting, the factory default settings will be restored. All previous configurations and bandwidth usage data will be lost after restoring factory default settings. Regular backup of configuration settings is strongly recommended. Important Note https://www.peplink.com 186 Copyright @ 2019 Pepwave Appendix B: Declaration 1. The device supports time division technology 2. Federal Communication Commission Interference Statement This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Operations in the 5.15-5.25GHz band are restricted to indoor usage only. IMPORTANT NOTE FCC Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 23 cm between the radiator & your body. Manufacturers of U-NII devices are responsible for ensuring frequency stability such that an emission is maintained within the band of operation under all conditions of normal operation as specified in the users manual. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. https://www.peplink.com 187 Copyright @ 2019 Pepwave The availability of some specific channels and/or operational frequency bands are country dependent and are firmware programmed at the factory to match the intended destination. 3. Industry Canada statement:
This device complies with ISEDs licence-exempt RSSs. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Le prsent appareil est conforme aux CNR d ISED applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes : (1) le dispositif ne doit pas produire de brouillage prjudiciable, et (2) ce dispositif doit accepter tout brouillage reu, y compris un brouillage susceptible de provoquer un fonctionnement indsirable. For licence-exempt equipment with detachable antennas, the user manual shall also contain the following notice in a conspicuous location:
This radio transmitter 20682-P1941 has been approved by Innovation, Science and Economic Development Canada to operate with the antenna types listed below, with the maximum permissible gain indicated. Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device. WIFI Antenna type: Replacement Antenna WIFI Antenna gain: 2.4GHz / 2.44 dBi , 5GHz / 4.73 dBi LTE Antenna type: Replacement Antenna (04-410055-00) LTE Antenna gain: 4 dBi LTE Antenna type: Replacement Antenna (04-410093-01) LTE Antenna gain: 4.38 dBi Radiation Exposure Statement:
This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with greater than 23 cm between the radiator
& your body. https://www.peplink.com 188 Copyright @ 2019 Pepwave Dclaration d'exposition aux radiations:
Cet quipement est conforme aux limites d'exposition aux rayonnements ISED tablies pour un environnement non contrl. Cet quipement doit tre install et utilis plus de 23 cm entre le radiateur et votre corps. Caution :
(i) the device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems;
(ii) for devices with detachable antenna(s), the maximum antenna gain permitted for devices in the band 5725-5850 MHz shall be such that the equipment still complies with the e.i.r.p. limits as appropriate; (detachable antenna only)
(iii) where applicable, antenna type(s), antenna models(s), and worst-case tilt angle(s) necessary to remain compliant with the e.i.r.p. elevation mask requirement set forth in section 6.2.2.3 shall be clearly indicated. Avertissement:
Le guide dutilisation des dispositifs pour rseaux locaux doit inclure des instructions prcises sur les restrictions susmentionnes, notamment :
(i) les dispositifs fonctionnant dans la bande 5150-5250 MHz sont rservs uniquement pour une utilisation lintrieur afin de rduire les risques de brouillage prjudiciable aux systmes de satellites mobiles utilisant les mmes canaux;
(ii) pour les dispositifs munis dantennes amovibles, le gain maximal dantenne permis (pour les dispositifs utilisant la bande de 5725 5850 MHz) doit tre conforme la limite de la p.i.r.e. spcifie, selon le cas; (detachable antenna only)
(iii) lorsquil y a lieu, les types dantennes (sil y en a plusieurs), les numros de modle de lantenne et les pires angles dinclinaison ncessaires pour rester conforme lexigence de la p.i.r.e. applicable au masque dlvation, nonce la section 6.2.2.3, doivent tre clairement indiqus 4. CE Statement for Pepwave Europe EU Declaration of Conformity This device complies with the essential requirements of the R&TTE Directive 1999/5/EC. The following test methods have been applied in order to prove presumption of conformity with the essential requirements of the R&TTE Directive 1999/5/EC:
https://www.peplink.com 189 Copyright @ 2019 Pepwave
- EN 60950-1: 2006 + A11 : 2009+A1 : 2010+ A12: 2011 Safety of Information Technology Equipment
- EN 50385 : 2002 / Article 3(1)(a) Product standard to demonstrate the compliance of radio base stations and fixed terminal stations for wireless telecommunication systems with the basic restrictions or the reference levels related to human exposure to radio frequency electromagnetic fields
(110MHz - 40 GHz) - General public EN 300 328 V1.7.1: 2006 Electromagnetic compatibility and Radio spectrum Matters (ERM); Wideband Transmission systems; Data transmission equipment operating in the 2,4 GHz ISM band and using spread spectrum modulation techniques; Harmonized EN covering essential requirements under article 3.2 of the R&TTE Directive
- EN 301 908-1 V5.2.1: 2011
- EN 301 511 V9.0.2: 2003 Electromagnetic compatibility and Radio spectrum Matters (ERM); Base Stations (BS), Repeaters and User Equipment (UE) for IMT-2000 Third-Generation cellular networks;
Part 1: Harmonized EN for IMT-2000, introduction and common requirements, covering essential requirements of article 3.2 of the R&TTE Directive Global System for Mobile communications (GSM); Harmonized standard for mobile stations in the GSM 900 and DCS 1800 bands covering essential requirements under article 3.2 of the R&TTE directive (1999/5/EC)
- EN 301 489-1 V1.9.2: 2008 Electromagnetic compatibility and Radio Spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements
- EN 301 489-7 V1.3.1: 2005 ElectroMagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment ad services; Part 7: Specific conditions for mobile and portable radio and ancillary equipment of digital cellular radio telecommunications systems (GSM and DCS)
- EN 301 489-17 V2.2.1: 2012 Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 17: Specific conditions for 2,4 GHz wideband transmission systems and 5 GHz high performance RLAN equipment https://www.peplink.com 190 Copyright @ 2019 Pepwave
- EN 301 489-24 V1.5.1: 2010 Electromagnetic compatibility and Radio Spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 24: Specific conditions for IMT-2000 CDMA Direct Spread (UTRA) for Mobile and portable (UE) radio and ancillary equipment
[Jmno vrobce] tmto prohlauje, e tento [typ zazen] je ve shod se zkladnmi poadavky a dalmi pslunmi ustanovenmi smrnice 1999/5/ES. Undertegnede [fabrikantens navn] erklrer herved, at flgende udstyr [udstyrets typebetegnelse] overholder de vsentlige krav og vrige relevante krav i direktiv 1999/5/EF. Hiermit erklrt [Name des Herstellers], dass sich das Gert [Gertetyp] in bereinstimmung mit den grundlegenden Anforderungen und den brigen einschlgigen Bestimmungen der Richtlinie 1999/5/EG befindet. Kesolevaga kinnitab [tootja nimi = name of manufacturer] seadme [seadme tp = type of equipment] vastavust direktiivi 1999/5/E phinuetele ja nimetatud direktiivist tulenevatele teistele asjakohastele stetele. English Hereby, [name of manufacturer], declares that this [type of equipment] is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. Por medio de la presente [nombre del fabricante] declara que el [clase de equipo] cumple con los requisitos esenciales y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999/5/CE.
[name of manufacturer] [type of equipment]
1999/5/. Par la prsente [nom du fabricant] dclare que l'appareil [type d'appareil] est conforme aux exigences essentielles et aux autres dispositions pertinentes de la directive 1999/5/CE. Con la presente [nome del costruttore] dichiara che questo [tipo di apparecchio]
conforme ai requisiti essenziali ed alle altre disposizioni pertinenti stabilite dalla direttiva 1999/5/CE. Ar o [name of manufacturer / izgatavotja nosaukums] deklar, ka [type of equipment /
iekrtas tips] atbilst Direktvas 1999/5/EK btiskajm prasbm un citiem ar to saisttajiem noteikumiem. Lietuvi
[Lithuanian]
iuo [manufacturer name] deklaruoja, kad is [equipment type] atitinka esminius reikalavimus ir kitas 1999/5/EB Direktyvos nuostatas. Nederlands
[Dutch]
Hierbij verklaart [naam van de fabrikant] dat het toestel [type van toestel] in overeenstemming is met de essentile eisen en de andere relevante bepalingen van richtlijn 1999/5/EG. esky
[Czech]
Dansk
[Danish]
Deutsch
[German]
Eesti
[Estonian]
Espaol
[Spanish]
[Greek]
Franais
[French]
Italiano
[Italian]
Latviski
[Latvian]
https://www.peplink.com 191 Copyright @ 2019 Pepwave Malti
[Maltese]
Hawnhekk, [isem tal-manifattur], jiddikjara li dan [il-mudel tal-prodott] jikkonforma mal-
tiijiet essenzjali u ma provvedimenti orajn relevanti li hemm fid-Dirrettiva 1999/5/EC. Magyar
[Hungarian]
Alulrott, [gyrt neve] nyilatkozom, hogy a [... tpus]megfelel a vonatkoz alapvet kvetelmnyeknek s az 1999/5/EC irnyelv egyb elrsainak. Polski
[Polish]
Niniejszym [nazwa producenta] owiadcza, e [nazwa wyrobu] jest zgodny z zasadniczymi wymogami oraz pozostaymi stosownymi postanowieniami Dyrektywy 1999/5/EC. Portugus
[Portuguese]
[Nome do fabricante] declara que este [tipo de equipamento] est conforme com os requisitos essenciais e outras disposies da Directiva 1999/5/CE. Slovensko
[Slovenian]
[Ime proizvajalca] izjavlja, da je ta [tip opreme] v skladu z bistvenimi zahtevami in ostalimi relevantnimi doloili direktive 1999/5/ES. Slovensky
[Meno vrobcu] tmto vyhlasuje, e [typ zariadenia]spa zkladn poiadavky a vetky prslun ustanovenia Smernice 1999/5/ES.
[Valmistaja = manufacturer] vakuuttaa tten ett [type of equipment = laitteen tyyppimerkint] tyyppinen laite on direktiivin 1999/5/EY oleellisten vaatimusten ja sit koskevien direktiivin muiden ehtojen mukainen. Svenska
[Swedish]
Hrmed intygar [fretag] att denna [utrustningstyp] str I verensstmmelse med de vsentliga egenskapskrav och vriga relevanta bestmmelser som framgr av direktiv 1999/5/EG.
[Slovak]
Suomi
[Finnish]
https://www.peplink.com 192 Copyright @ 2019 Pepwave
1 2 3 | ID Label and Location-1 | ID Label/Location Info | 3.09 MiB | April 24 2020 |
Model: MAX BR1 Pro LTE 0". peplink Product Code: MAX-BR1-PRO-LTE-US-T Serial No.:2936-D366-62AE a o C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YATTON) ce cee nlc interference that may cause undesired Ms HW1 operation. Model: MAX BR Pro LTE PEPWAVE Product Code:MAX-BR1-PRO-LTE-US-T ~* Ce) Serial No.:2936-D366-62AE A bs C LAN MAC:A8-CO0-EA-03-25-CO AP Password:EA0325CO FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT YAMOOR MRM TYTN] eres eet. king interference that may cause undesired Ms HW1 operation. Model: MAX BR1 Pro LTEA ony peplink Product Code:MAX-BR1-PRO-LTEA-W-T ss Serial No.:2936-D366-62AE ah ke C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UTTAR MTT TMNT ere resent interference that may cause undesired M8 HW1 operation. Model: MAX BR1 Pro LTEA PEPWAVE Product Code:MAX-BR1-PRO-LTEA-W-T ~ i) Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RAO MMT UMN) erence ees ling interference that may cause undesired Ms HW1 operation. Model: MAX BR1 Pro Product Code:MAX-BR1-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default A U ~admi FCC ID: U8G-P1941 efault Access sername: aamin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT ATONE MRM TINA) irre essed rca interference that may cause undesired M8 HW1 operation. Model: MAX BR1 Pro PEPWAVE Product Code:MAX-BR1-PRO-LTEA-W-T i) Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RATT MMT VMN) erence reseed rca interference that may cause undesired M8 HW1 operation. Model: MAX-BR1-PRO-LTEA-W-T pepiink Product Code:MAX-BR1-PRO-LTEA-W-T . pe Serial No.:2936-D366-62AE ah ki C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MOT UMN) rence ected ching interference that may cause undesired M8 HW1 operation. Model: MAX-BR1-PRO-LTEA-W-T PEPWAVE Product Code:MAX-BR1-PRO-LTEA-W-T ~ (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT AAT MMT YTD) secs eed cg interference that may cause undesired M8 HW1 operation. Model: MAX-BR1-PRO-LTE-US-T oplink Product Code:MAX-BR1-PRO-LTE-US-T _ Pe P Serial No.:2936-D366-62AE a KY C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin cee ee ate Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT TA YAO MOT YIN) ete eng interference that may cause undesired M8 HW1 operation. Model: MAX-BR1-PRO-LTE-US-T PEPWAVE Product Code:MAX-BR1-PRO-LTE-US-T (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT YATTON MR MT TINA) serene eset interference that may cause undesired Ms HW1 operation. Model: BR2 Pro Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin ee Oo eect Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA riertence scat, ung interference that may cause undesired M8 HW1 operation. Model: BR2 Pro PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T * (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT AAMT MMT YTD) ere ete ein interference that may cause undesired M8 HW1 operation. Model: CX2 Mini Product Code:MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 F FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YAO MMT TN) serene ected cling interference that may cause undesired M8 HW1 operation. Model: CX2 Mini PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT ATTRA ATID, rece reeves rare interference that may cause undesired Ms HW1 operation. Model: MAX BR2 Pro LTE pepiink Product Code:MAX-BR2-PRO-LTEA-W-T . ss Serial No.:2936-D366-62AE ah ki C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT ATTA MRM ATID) irre ceed rca interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro LTE PEPWAVE Product Code:MAX-BR2-PRO-LTE-US-T (a) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MR MNT YTD] ieee cet iciing interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro LTEA oni peplink Product Code:MAX-BR2-PRO-LTEA-W-T . ex Serial No.:2936-D366-62AE ah ke C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RATTAN NTN] eres eevee interference that may cause undesired Ms HW1 operation. Model: MAX BR2 Pro LTEA PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT A YAO MR UMN) aeeerce csv ct interference that may cause undesired Ms HW1 operation. Model: MAX BR2 Pro Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin ECC ID: U8G-F 1041 Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UTTAR MMT YN ere cee nce interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T % aS Vey Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MMT YTD) rence ete ching interference that may cause undesired M8 HW1 operation. Model: MAX CX2 Mini o*s Product Code:MAX-BR2-PRO-LTEA-W-T Peplink Serial No.:2936-D366-62AE aa Gy C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MMT YTD) rence ete ching interference that may cause undesired M8 HW1 operation. Model: MAX CX2 Mini PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T q @
re Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MMT YTD) rence ete ching interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTE ony peplink Product Code:MAX-BR2-PRO-LTEA-W-T , ex Serial No.:2936-D366-62AE ah ke C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin Contains Fe. Oe RON https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the a following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT VAIO MR MT ATID, tees rng interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTE PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T * (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT RAMONE MRM YTV) res eves, roti interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTEA or Product Code:MAX-BR2-PRO-LTEA-W-T Peplink Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0
- FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT MYATT MRM ATID, eres cet. eng interference that may cause undesired Ms HW1 operation. Model: MAX UBR LTEA PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MOT TINNY eres eta interference that may cause undesired M8 HW1 operation. Model: MAX UBR ony Product Code:MAX-BR2-PRO-LTEA-W-T . Peplink Serial No.:2936-D366-62AE aa Gy C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the a following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YAMTOR MRM TT YTV ete tng interference that may cause undesired M8 HW1 operation. Model: MAX UBR PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MOT TINNY eres eta interference that may cause undesired M8 HW1 operation. Model: MAX-BR2-PRO-LTEA-W-T Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT RAMON MR MT TINA) erence ese etn interference that may cause undesired Ms HW1 operation. Model: MAX-BR2-PRO-LTEA-W-T PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~* i) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT A YATE MOT TINNY tee rete inciing interference that may cause undesired M8 HW1 operation. Model: MAX-BR2-PRO-LTE-US-T Product Code:MAX-BR2-PRO-LTE-US-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YATTON MR MT YTD, sees nce interference that may cause undesired M8 HW1 operation. Model: MAX-BR2-PRO-LTE-US-T PEPWAVE Product Code:MAX-BR2-PRO-LTE-US-T (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MMT YTD) rence ete ching interference that may cause undesired M8 HW1 operation. Model: MAX-CX2-Mini Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin FCC ID: U8G-P 1941 Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the Made in Tai following two conditions: (1) this device age In lalwan may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired Ms HW4 operation Model: MAX-CX2-Mini PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT ATTA MRM ATID) irre ceed rca interference that may cause undesired M8 HW1 operation. Model: Pismo941 Product Code:MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 F FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RAMON) serene ete nck interference that may cause undesired M8 HW1 operation. Model: Pismo941 PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RATT MRM TINY serene ete ing interference that may cause undesired M8 HW1 operation. Model: UBR LTE ony Product Code:MAX-BR2-PRO-LTEA-W-T . Peplink Serial No.:2936-D366-62AE aa Gy C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT AMOR MRM ATID ere ecg interference that may cause undesired M8 HW1 operation. Model: UBR LTE PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~*~ (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YATTON MR MT YIN) erence ete ching interference that may cause undesired M8 HW1 operation. Model: UBR o*. Product Code:MAX-BR2-PRO-LTEA-W-T Peplink Serial No.:2936-D366-62AE A C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT ATTA MR MT TINA) irre reseed nlc interference that may cause undesired M8 HW1 operation. Model: UBR PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT A YATE MOT TINNY sien interference that may cause undesired Ms HW1 operation. Model: UBR-LTE oti Product Code:MAX-BR2-PRO-LTEA-W-T . peplink Serial No.:2936-D366-62AE ah o C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RATT MRM TINY serene ete ing interference that may cause undesired M8 HW1 operation. Model: UBR-LTE PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~* i) Serial No.:2936-D366-62AE A bs C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325CO FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT MYATT MRT YTV) eee eet, ekg interference that may cause undesired Ms HW1 operation. Model: UBR-LTEA-W-T Product Code: UBR-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A Made in Taiwan Ms HW1 FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Model: UBR-LTEA-W-T Product Code: UBR-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A Made in Taiwan Ms HW1 PEPWAVE Z@CE FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Model: UBR-LTEA-W-T-PRM Product Code: UBR-LTEA-W-T-PRM Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains Fe. Oe RON https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MT TINNY ere ress nar interference that may cause undesired M8 HW1 operation. Model: UBR-LTEA-W-T-PRM PEPWAVE Product Code: UBR-LTEA-W-T-PRM Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RI7LE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UCT MAMTA MR MT ATID, ete ein interference that may cause undesired M8 HW1 operation. Model: UBR-LTE-US-T Product Code:UBR-LTE-US-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A Made in Taiwan Ms HW1 FCC ID: U8G-P1941 Contains FCC ID: RI7LE910CXNF This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Model: UBR-LTE-US-T PEPWAVE Product Code:UBR-LTE-US-T e) Serial No.:2936-D366-62AE a to C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT YAITORY MR MT ATID) secs ete cg interference that may cause undesired M8 HW1 operation. Model: UBR-LTE-US-T-PRM Product Code:UBR-LTE-US-T-PRM Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains Fe. Oe RON https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the a following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT RATT MRT TWN) eed interference that may cause undesired M8 HW1 operation. Model: UBR-LTE-US-T-PRM PEPWAVE Product Code:UBR-LTE-US-T-PRM S&S Serial No.:2936-D366-62AE & bd C LAN MAC:A8-CO-EA-03-25-C0 AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: RITLE910CXNF https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT AMOR MRM YN) ecg interference that may cause undesired M8 HW1 operation.
1 2 3 | ID Label and Location-2 | ID Label/Location Info | 3.09 MiB | April 24 2020 |
Model: MAX BR1 Pro LTE 0". peplink Product Code:MAX-BR1-PRO-LTE-US-T \ 7s Serial No.:2936-D366-62AE ae Gy C LAN MAC:A8-C0-EA-03-25-CO _ AP Password:EA0325C0
. 7 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA rieferene recs, reudng interference that may cause undesired M8 HW1 operation. Model: MAX BR1 Pro LTE PEPWAVE Product Code:MAX-BR1-PRO-LTE-US-T ~* Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RATTAN NTN] eres eevee interference that may cause undesired Ms HW1 operation. Model: MAX BR1 Pro LTEA ony peplink Product Code:MAX-BR1-PRO-LTEA-W-T ss Serial No.:2936-D366-62AE ah ke C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA rieferene recs, reudng interference that may cause undesired M8 HW1 operation. Model: MAX BR1 Pro LTEA PEPWAVE Product Code:MAX-BR1-PRO-LTEA-W-T ~ i) Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT AMOR MRM YTV) erence ese etn interference that may cause undesired Ms HW1 operation. Model: MAX BR1 Pro Product Code:MAX-BR1-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0
- FCC ID: U8G-P 1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RYAN MA UMN) eros sees ncn interference that may cause undesired Ms HW1 operation. Model: MAX BR1 Pro PEPWAVE Product Code:MAX-BR1-PRO-LTEA-W-T St @) Serial No.:2936-D366-62AE & ts C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT RAMON MR MT TINA) erence ese etn interference that may cause undesired Ms HW1 operation. Model: MAX-BR1-PRO-LTEA-W-T pepiink Product Code:MAX-BR1-PRO-LTEA-W-T . pe Serial No.:2936-D366-62AE ah ki C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA Fiererence enced incur interference that may cause undesired Ms HW1 operation. Model: MAX-BR1-PRO-LTEA-W-T PEPWAVE Product Code:MAX-BR1-PRO-LTEA-W-T ~ (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YATTON MRT TIDY eres eee cing interference that may cause undesired Ms HW1 operation. Model: MAX-BR1-PRO-LTE-US-T oplink Product Code:MAX-BR1-PRO-LTE-US-T _ Pe P Serial No.:2936-D366-62AE a KY C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin oO ee eee Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MTT TINNY tere reseed nla interference that may cause undesired M8 HW1 operation. Model: MAX-BR1-PRO-LTE-US-T PEPWAVE Product Code:MAX-BR1-PRO-LTE-US-T ~ (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired M8 HW1 operation. Model: BR2 Pro Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin Foe ID NyNntonae Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT YAMA MRT TINY eros reeves rar interference that may cause undesired Ms HW1 operation. Model: BR2 Pro PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T * (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MTT TINNY tere reseed nla interference that may cause undesired M8 HW1 operation. Model: CX2 Mini Product Code:MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA rieferene recs, reudng interference that may cause undesired M8 HW1 operation. Model: CX2 Mini PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0
. 5 FCC ID: U8G-P 1941 Default Access Username: admin Contains FOC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro LTE pepiink Product Code: MAX-BR2-PRO-LTEA-W-T 7s Serial No.:2936-D366-62AE a Gy C LAN MAC:A8-C0-EA-03-25-CO _ AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UTTAR AMOR MR TINNY see nacre interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro LTE PEPWAVE Product Code:MAX-BR2-PRO-LTE-US-T (a) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
| | following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT A YATE MOT TINNY sien interference that may cause undesired Ms HW1 operation. Model: MAX BR2 Pro LTEA oni peplink Product Code:MAX-BR2-PRO-LTEA-W-T . ex Serial No.:2936-D366-62AE ah ke C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT MAMAN MR MT TIDY receding interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro LTEA PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT A YAO MR UMN) aeeerce csv ct interference that may cause undesired Ms HW1 operation. Model: MAX BR2 Pro Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin oO ee eee Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RAMON) serene ete nck interference that may cause undesired M8 HW1 operation. Model: MAX BR2 Pro PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T q @S Serial No.:2936-D366-62AE a to C LAN MAC:A8-CO-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT YATTON MRM YIN) tng interference that may cause undesired M8 HW1 operation. Model: MAX CX2 Mini o*s Product Code:MAX-BR2-PRO-LTEA-W-T Peplink Serial No.:2936-D366-62AE aa Gy C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YATTON) ce cee nlc interference that may cause undesired M8 HW1 operation. Model: MAX CX2 Mini PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T q @S Serial No.:2936-D366-62AE & ts C LAN MAC:A8-CO-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT YATTON MRM YIN) eres see nce interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTE pepiink Product Code:MAX-BR2-PRO-LTEA-W-T . ex Serial No.:2936-D366-62AE ah ke C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT MAMAN MR MT TIDY receding interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTE PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T St @
Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT RAMON) serene ete nck interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTEA or Product Code:MAX-BR2-PRO-LTEA-W-T Peplink Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin ECC ID: USG-P 1941 Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MMT VMN) eres esac interference that may cause undesired M8 HW1 operation. Model: MAX UBR LTEA PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MT TINNY erence rsa rar interference that may cause undesired Ms HW1 operation. Model: MAX UBR ony Product Code:MAX-BR2-PRO-LTEA-W-T . Peplink Serial No.:2936-D366-62AE aa Gy C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT ATONE MRM TINA) irre essed rca interference that may cause undesired M8 HW1 operation. Model: MAX UBR PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE & bo C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MRT TYTN] tee set icing interference that may cause undesired M8 HW1 operation. Model: MAX-BR2-PRO-LTEA-W-T Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oe following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT MAMAN MR MT TIDY receding interference that may cause undesired M8 HW1 operation. Model: MAX-BR2-PRO-LTEA-W-T PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~* i) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT ATOR MR MT TINA, roe cee nlc interference that may cause undesired Ms HW1 operation. Model: MAX-BR2-PRO-LTE-US-T Product Code:MAX-BR2-PRO-LTE-US-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired M8 HW1 operation. Model: MAX-BR2-PRO-LTE-US-T PEPWAVE Product Code:MAX-BR2-PRO-LTE-US-T (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0
. 7 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT A YAMOOR MRM TT YTV) sree ie tng interference that may cause undesired M8 HW1 operation. Model: MAX-CX2-Mini Product Code: MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 F FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA Perera soe, rer interference that may cause undesired Ms HW1 operation. Model: MAX-CX2-Mini PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MRT YTV) serene csv kn interference that may cause undesired Ms HW1 operation. Model: Pismo941 Product Code:MAX-BR2-PRO-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT AMOOR MRT YIN] ree rested interference that may cause undesired M8 HW1 operation. Model: Pismo941 PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T * (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UTTAR MTT TMNT ere resent interference that may cause undesired M8 HW1 operation. e**. Model: UBR LTE pepiink Product Code:MAX-BR2-PRO-LTEA-W-T . pe Serial No.:2936-D366-62AE ah ki C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UO AA rieferene recs, reudng interference that may cause undesired M8 HW1 operation. Model: UBR LTE PEPWAVE Product Code: MAX-BR2-PRO-LTEA-W-T ~*~ (ee) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MRT YTV) serene csv kn interference that may cause undesired Ms HW1 operation. Model: UBR o*. Product Code:MAX-BR2-PRO-LTEA-W-T . Pe plink Serial No.:2936-D366-62AE Ag CE LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the a following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YAMTOR MRM TT YTV ete tng interference that may cause undesired M8 HW1 operation. Model: UBR PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~ (x) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT AMOOR MRT YIN] ree rested interference that may cause undesired M8 HW1 operation. Model: UBR-LTE oti Product Code:MAX-BR2-PRO-LTEA-W-T . Peplink Serial No.:2936-D366-62AE aa Gy C LAN MAC:A8-C0-EA-03-25-CO =
AP Password:EA0325C0
. 7 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MT TINNY ere ress nar interference that may cause undesired M8 HW1 operation. Model: UBR-LTE PEPWAVE Product Code:MAX-BR2-PRO-LTEA-W-T ~* i) Serial No.:2936-D366-62AE A bs C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325CO FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MOT UMN) rence ected ching interference that may cause undesired M8 HW1 operation. Model: UBR-LTEA-W-T Product Code: UBR-LTEA-W-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A Made in Taiwan Ms HW1 FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Model: UBR-LTEA-W-T PEPWAVE Product Code: UBR-LTEA-W-T ee) Serial No.:2936-D366-62AE a to C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UIT YATTON) ce cee nlc interference that may cause undesired Ms HW1 operation. Model: UBR-LTEA-W-T-PRM Product Code: UBR-LTEA-W-T-PRM Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the Made in Tai following two conditions: (1) this device age In lalwan may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired Ms HW4 operation Model: UBR-LTEA-W-T-PRM PEPWAVE Product Code: UBR-LTEA-W-T-PRM Ce) Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT MYATT MRM ATID, eres cet. eng interference that may cause undesired Ms HW1 operation. Model: UBR-LTE-US-T Product Code:UBR-LTE-US-T Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT ATTA MR MT TINA) irre reseed nlc interference that may cause undesired M8 HW1 operation. Model: UBR-LTE-US-T PEPWAVE Product Code:UBR-LTE-US-T e) Serial No.:2936-D366-62AE a to C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 FCC ID: U8G-P1941 Default Access Username: admin Contains FCC ID: N7NMC7455 https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any UOT RAMONE MRM YTV) res eves, roti interference that may cause undesired Ms HW1 operation. Model: UBR-LTE-US-T-PRM Product Code:UBR-LTE-US-T-PRM Serial No.:2936-D366-62AE LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin Contains pec De Nenlovaes https://192.168.50.1 Password: admin Input : 12V DC 2A This device complies with Part 15 of the FCC Rules. Operation is subject to the
. following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MT TINNY ere ress nar interference that may cause undesired M8 HW1 operation. Model: UBR-LTE-US-T-PRM PEPWAVE Product Code:UBR-LTE-US-T-PRM S&S Serial No.:2936-D366-62AE A bd C LAN MAC:A8-C0-EA-03-25-CO AP Password:EA0325C0 Default Access Username: admin https://192.168.50.1 Password: admin Input : 12V DC 2A FCC ID: U8G-P1941 Contains FCC ID: N7NMC7455 This device complies with Part 15 of the FCC Rules. Operation is subject to the oo following two conditions: (1) this device Made in Taiwan may not cause harmful interference, and
(2) this device must accept any ULTRAM MOT UMN) rence ected ching interference that may cause undesired M8 HW1 operation.
1 2 3 | Confidentiality Request Letter | Cover Letter(s) | 150.07 KiB | April 24 2020 |
PISMO LABS TECHNOLOGY LIMITED A8, 5/F, HK Spinners Industrial Building, Phase 6, 481 Castle Peak Road, Cheung Sha Wan, Hong Kong Tel: +852 2990 7634; Fax: +852 3007 0588 Date: April 10, 2020 Federal Communications Commission Office of Engineering and Technology Laboratory Division 7435 Oakland Mills Rd Columbia MD 21046-1609 Subject: Request for Confidentiality FCC ID: U8G- P1941 To Whom It May Concern, Pursuant to the provisions of Sections 0.457 and 0.459 of Commissions rules (47CFR0.457, 0.459), we are requesting the Commission to withhold the following attachment(s) as confidential document from public disclosure indefinitely. Schematic Diagram Block Diagram Operational Description Above mentioned document contains detailed system and equipment description are considered as proprietary information in operation of the equipment. The public disclosure of above documents might be harmful to our company and would give competitor an unfair advantage in the market. It is our understanding that all measurement test reports, FCC ID label format and correspondent during certification review process cannot be granted as confidential documents and those information will be available for public review once the grant of equipment authorization is issued. Best Regards, ______________________ Antony Chong antonyc@peplink.com
1 2 3 | Declaration Letter | Cover Letter(s) | 273.91 KiB | April 24 2020 |
Note: The different of each model is shown as below:
Product Model Number _| Model Number(s) Description UBR LTE MAX UBR LTE are identical in Interior Structure, MAX UBR. Electrical Circuits, Components and MAX UBR LTEA Appearance, with different model names UBR for the marketing requirement. MAX BR2 Pro BR2 Pro MAX BR2 Pro LTE MAX BR2 Pro LTEA MAX-CX2-Mini MAX CX2 Mini CX2 Mini MAX-BR2-PRO-LTEA-W-T MAX-BR2-PRO-LTE-US-T Pismo941 UBR-LTE UBR-LTE-US-T UBR-LTE-US-T-PRM UBR-LTEA-W-T UBR-LTEA-W-T-PRM MAX BR1 Pro Differs from the above models only in MAX BR1 Pro LTE one PCIE Module , The appearance of MAX BR1 Pro LTEA the Cellular antenna connector is MAX-BR1-PRO-LTEA-W-T removed. MAX-BR1-PRO-LTE-US-T Note: The different of each model is shown as below:
Model Number(s) Description UBR LTE MAX UBR LTE MAX UBR MAX UBR LTEA UBR MAX BR2 Pro BR2 Pro MAX BR2 Pro LTE MAX BR2 Pro LTEA MAX-CX2-Mini MAX CX2 Mini CX2 Mini MAX-BR2-PRO-LTEA-W-T MAX-BR2-PRO-LTE-US-T Pismo941 UBR-LTE UBR-LTE-US-T UBR-LTE-US-T-PRM. UBR-LTEAW-T UBR-LTEA-W-T-PRM are identical in Interior Structure, Electrical Circuits, Components and Appearance, with different model names for the marketing requirement. MAX BR1 Pro MAX BR1 Pro LTE MAX BR1 Pro LTEA MAX-BR1-PRO-LTEA-W-T MAX-BR1-PRO-LTE-US-T Differs from the above models only in one PCIE Module , The appearance of the Cellular antenna connector is removed.
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2020-04-24 | 5745 ~ 5825 | NII - Unlicensed National Information Infrastructure TX | Original Equipment |
2 | JAD - Part 15 Class A Digital Device | |||
3 | 2412 ~ 2462 | DTS - Digital Transmission System |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 | Effective |
2020-04-24
|
||||
1 2 3 | Applicant's complete, legal business name |
PISMO LABS TECHNOLOGY LIMITED.
|
||||
1 2 3 | FCC Registration Number (FRN) |
0016347064
|
||||
1 2 3 | Physical Address |
A8, 5/F, HK Spinners Industrial Building, Phase 6, 481 Castle Peak Road
|
||||
1 2 3 |
A8, 5/F, HK Spinners Industrial Building, Phase 6
|
|||||
1 2 3 |
Cheung Sha Wan,, N/A
|
|||||
1 2 3 |
Hong Kong
|
|||||
app s | TCB Information | |||||
1 2 3 | TCB Application Email Address |
s******@nemko.com
|
||||
1 2 3 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
1 2 3 |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
|||||
app s | FCC ID | |||||
1 2 3 | Grantee Code |
U8G
|
||||
1 2 3 | Equipment Product Code |
P1941
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 | Name |
A******** C****
|
||||
1 2 3 | Title |
Director of Hardware Engineering
|
||||
1 2 3 | Telephone Number |
85229********
|
||||
1 2 3 | Fax Number |
85230********
|
||||
1 2 3 |
a******@peplink.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 3 | 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 2 3 | 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 2 3 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 | Equipment Class | NII - Unlicensed National Information Infrastructure TX | ||||
1 2 3 | JAD - Part 15 Class A Digital Device | |||||
1 2 3 | DTS - Digital Transmission System | |||||
1 2 3 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | PEPWAVE / peplink Wireless Product | ||||
1 2 3 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 | Modular Equipment Type | Does not apply | ||||
1 2 3 | Purpose / Application is for | Original Equipment | ||||
1 2 3 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 | 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 2 3 | Grant Comments | Output power listed is conducted. This device has 20 MHz and 40MHz bandwidth modes. The RF exposure compliance is addressed for 1.1310 and 2.1091 MPE limits with 23cm as the restricted distance - this filing complies with KDB 447498 and is approved for mobile/fixed operation. End Users must be provided with transmitter operation conditions for satisfying RF exposure compliance. Operation in 5150-5250MHz is for indoor use only. This device is approved with a certified licensed transmitter (FCC ID: RI7LE910CXNF and N7NMC7455). | ||||
1 2 3 | This device is approved with a certified licensed transmitter (FCC ID: RI7LE910CXNF and N7NMC7455). | |||||
1 2 3 | Output power listed is conducted. This device has 20 MHz and 40MHz bandwidth modes. The RF exposure compliance is addressed for 1.1310 and 2.1091 MPE limits with 23cm as the restricted distance - this filing complies with KDB 447498 and is approved for mobile/fixed operation. End Users must be provided with transmitter operation conditions for satisfying RF exposure compliance. This device is approved with a certified licensed transmitter (FCC ID: RI7LE910CXNF and N7NMC7455). | |||||
1 2 3 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 | 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 2 3 | Firm Name |
SPORTON International Inc.
|
||||
1 2 3 |
DEKRA TESTING AND CERTIFICATION CO., LTD. LinKou
|
|||||
1 2 3 | Name |
A******** C********
|
||||
1 2 3 |
S**** H****
|
|||||
1 2 3 | Telephone Number |
886-3******** Extension:
|
||||
1 2 3 |
+886-******** Extension:
|
|||||
1 2 3 | Fax Number |
886-3********
|
||||
1 2 3 |
+886-********
|
|||||
1 2 3 |
a******@sporton.com.tw
|
|||||
1 2 3 |
s******@dekra.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15E | CC MO | 5180 | 5240 | 0.2438 | |||||||||||||||||||||||||||||||||||
1 | 2 | 15E | CC MO | 5745 | 5825 | 0.1726 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15B | CC | ||||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 15C | CC MO | 2412.00000000 | 2462.00000000 | 0.8933000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC