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WGR-500-4PV - Router Planet - Free user manual and instructions

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Type de produit Router
Brand Planet
Model WGR-500-4PV
Wireless Standard IEEE 802.11n/g/b
Frequency Band 2.4 GHz
Max Data Rate Up to 300 Mbps
LAN Ports 4 x Gigabit Ethernet (PoE+ capable)
WAN Port 1 x Gigabit Ethernet
PoE Standard IEEE 802.3at (PoE+)
PoE Power Budget 120 W total
Antenna 2 x external detachable 5 dBi
Dimensions 200 x 150 x 30 mm
Weight 0.5 kg
Power Supply 12V DC, 1A
Security WPA2/AES, WPA, WEP, MAC filtering, SPI firewall
Management Web GUI, SNMP, CLI
VPN Support PPTP, L2TP, IPsec passthrough
Quality of Service Bandwidth control, traffic prioritization
VLAN Support 802.1Q VLAN tagging
Operating Temperature 0°C to 40°C
Operating Humidity 10% to 90% non-condensing
Mounting Desktop, wall-mount
LED Indicators PWR, LAN (1-4), WAN, WLAN, PoE
Certifications CE, FCC, RoHS

Frequently Asked Questions - WGR-500-4PV Planet

How do I reset the Planet WGR-500-4PV to factory defaults?
Press and hold the Reset button on the back panel for about 10 seconds until the Power LED blinks. Release and wait for the router to reboot. All settings will be restored to factory defaults.
What is the default IP address to access the router's web interface?
The default IP address is 192.168.1.1. Open a web browser and enter this address. The default username and password are both admin (unless changed).
How can I change the Wi-Fi password?
Log into the web interface, go to Wireless Settings > Security. Enter a new password in the 'Passphrase' or 'Key' field and click Save. Reconnect your devices with the new password.
Does the WGR-500-4PV support PoE (Power over Ethernet)?
Yes, the LAN ports (1-4) support PoE+ (IEEE 802.3at) with a total power budget of 120 W. You can power devices like IP cameras or access points directly via Ethernet.
What should I do if the internet connection is not working?
First, check that the WAN cable is connected properly and the ISP is active. Then log into the router and verify the WAN settings (PPPoE, DHCP, etc.). Reboot both the modem and router. If still not working, try a factory reset.
How can I update the firmware?
Visit the Planet website and download the latest firmware for the WGR-500-4PV. Then log into the router, go to System Tools > Firmware Upgrade, select the file and click Upgrade. Do not power off during the process.
Can I use the router as a wireless repeater?
The router supports WDS (Wireless Distribution System) for wireless bridging/repeating. Configure it under Wireless Settings > WDS. Enable and enter the MAC address of the other router.
What is the maximum number of connected devices?
The router can handle up to 32 wireless clients and 4 wired clients simultaneously. Performance may decrease with many active connections.
How do I enable Quality of Service (QoS)?
Log into the router, go to Advanced Setup > QoS. Enable it and set bandwidth limits or prioritize traffic by IP, port, or application. This helps for VoIP or gaming.
The router gets hot. Is that normal?
Some warmth is normal, especially when using PoE. Ensure proper ventilation. Do not block vents. If it becomes too hot to touch, check ambient temperature and reduce load. If persists, contact support.

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USER MANUAL WGR-500-4PV Planet

natural_image Black Planet network device with ports and connectors (no visible text or symbols)

Planet WGR-500-4PV - 1

natural_image Black Planet electronic device with network ports and a digital display (no readable text or symbols)

User's Manual

Industrial Wall-mount Gigabit Router

WGR-500-4P

WGR-500-4PV

Planet WGR-500-4PV - Industrial Wall-mount Gigabit Router - 1

natural_image Man in white shirt and tie using laptop in server rack (no visible text or symbols)

Trademarks

Copyright © PLANET Technology Corp. 2018.

Contents are subject to revision without prior notice.

PLANET is a registered trademark of PLANET Technology Corp. All other trademarks belong to their respective owners.

Disclaimer

PLANET Technology does not warrant that the hardware will work properly in all environments and applications, and makes no warranty and representation, either implied or expressed, with respect to the quality, performance, merchantability, or fitness for a particular purpose. PLANET has made every effort to ensure that this User's Manual is accurate; PLANET disclaims liability for any inaccuracies or omissions that may have occurred.

Information in this User's Manual is subject to change without notice and does not represent a commitment on the part of PLANET. PLANET assumes no responsibility for any inaccuracies that may be contained in this User's Manual. PLANET makes no commitment to update or keep current the information in this User's Manual, and reserves the right to make improvements to this User's Manual and/or to the products described in this User's Manual, at any time without notice.

If you find information in this manual that is incorrect, misleading, or incomplete, we would appreciate your comments and suggestions.

FCC Warning

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.

CE Mark Warning

This is a Class A product. In a domestic environment, this product may cause radio interference, in which case the user may be required to take adequate measures.

WEEE Warning

To avoid the potential effects on the environment and human health as a result of the presence of hazardous substances in electrical and electronic equipment, end users of electrical and electronic equipment should understand the meaning of the crossed-out wheeled bin symbol. Do not dispose of WEEE as unsorted municipal waste and have to collect such WEEE separately.

Planet WGR-500-4PV - WEEE Warning - 1

Revision

User's Manual of PLANET WGR-500, WGR-500-4P and WGR-500-4PV

Model: WGR-500 Series

Revision: 1.0 (November, 2018)

Part No: EM-WGR-500-4P_WGR-500-4PV_v1.0

TABLE OF CONTENTS

Chapter 1. Introduction......5

1.1. Packet Contents 5
1.2. Product Description....6
1.3. Product Features....10
1.4. Product Specifications....12

Chapter 2. Hardware Installation....14

2.1 Product Outlook....14

2.1.1 Front and Bottom Panel 14
2.1.2 LED Indications.... 16
2.1.3 Wiring the Power Inputs....19

2.2 Installing the industrial wall-mount Gigabit router 21

2.2.1 Wall-mount Installation....21
2.2.2 Magnet Installation....23
2.2.3 DIN-rail Installation....23

Chapter 3. Router Management ......25

3.1 Requirements 25
3.2 Web Management 26
3.3 LCD Touch Screen 28

Chapter 4. Configuration in Web UI....31

4.1 Main Web Page 31
4.2 System....34

4.2.1 Dashboard 35
4.2.2 Wizard....37
4.2.3 Status....43
4.2.4 Stastics 43
4.2.5 Operation Mode 44
4.2.6 Date and Time....46
4.2.7 User Configuration....47
4.2.8 SNMP 48
4.2.9 LCD 49
4.2.10 Log....50

4.3 Network 51

4.3.1 WAN Setup 52
4.3.2 LAN Setup....55
4.3.3 VLAN....56
4.3.4 Route 57
4.3.5 DDNS 59
4.3.6 IPv6 WAN Setting 61

4.3.7 IPv6 LAN Setting....62
4.3.8 RADVD 63
4.3.9 Tunnel (6 over 4)....66

4.4 Security....67

4.4.1 QoS....68
4.4.2 DoS....70
4.4.3 Port Filtering....72
4.4.4 IP Filtering....73
4.4.5 MAC Filtering 74
4.4.6 URL Filtering 75
4.4.7 DMZ 76
4.4.8 Port Forwarding 77

4.5 PoE....78

4.5.1 Power over Ethernet Powered Device 79
4.5.2 System Configuration....80
4.5.3 PoE Configuration....81
4.5.4 PoE Status....83
4.5.5 PoE Schedule 84
4.5.6 PoE Alive Check Configuration 86

4.6 Maintenance....87

4.6.1 Connection Test 88
4.6.2 Save/Restore Configuration....89
4.6.3 Upgrading Firmware....90
4.6.4 Reboot 90

Appendix A: Troubleshooting 91

Appendix B: Planet Smart Discovery Utility 92

Appendix C: Planet DDNS 93

Appendix D: Glossary....95

Chapter 1. Introduction

The descriptions of PLANET industrial wall-mount Gigabit router series, such as WGR-500-4PV and WGR-500-4P, are as follows:

WGR-500-4P Industrial Wall-mount Gigabit Router with 4-Port 802.3at PoE+

WGR-500-4PV Industrial Wall-mount Gigabit Router with 4-Port 802.3at PoE+ and LCD Touch Screen

"Industrial wall-mount Gigabit router" is used as an alternative name for the above models in this user's manual.

Model Name10/100/1000TCopper Ports802.3at PoE +Ports2.4” LCD
WGR-500-4P54-
WGR-500-4PV54

1.1. Packet Contents

Open the box of the industrial wall-mount Gigabit router and carefully unpack it. The box should contain the following items:

Industrial Router x 1Quick Installation Guide x 1Wall-mounted Kit x 1
Planet WGR-500-4PV - Packet Contents - 1Planet WGR-500-4PV - Packet Contents - 2Planet WGR-500-4PV - Packet Contents - 3
DIN-rail Kit x 1Magnet Kit x 13-pin Terminal Block Connector x 1
Planet WGR-500-4PV - Packet Contents - 4Planet WGR-500-4PV - Packet Contents - 5Planet WGR-500-4PV - Packet Contents - 6
RJ45 Dust Cap x 5
Planet WGR-500-4PV - Packet Contents - 7

If any of these are missing or damaged, please contact your dealer immediately; if possible, retain the carton including the original packing material, and use them again to repack the product in case there is a need to return it to us for repair.

1.2. Product Description

All-in-One Industrial Router Enhances IoT Network

PLANET WGR-500 Series is an industrial router with 8023at PoE+ capability, designed for Internet of Things (IoT) networks. It is capable of having a maximum of up to 120 watts of power output and unique PoE mechanism that facilitates the Ethernet PoE PD management more efficiently in Industrial networks, such as factory, transportation, government buildings, and other public areas. It also features the following special management and operation functions. The WGR-500 Series is the best solution for industry router application.

■ Wizard design and IPv6 / IPv4 support
■ Router and switch working mode
■ Firewall with 802.1Q VLAN security
■ PoE usage indicator and management
■ 48-56V DC dual power design

Robust and Secure Industrial Router for IoT Solution IPv6/IPv4 WAN PoE+ & 36W Per Port 802.1Q VLAN HW NAT -10°C~60°C Magnetic wall-mounted

Next Generation Flat-type Industrial Router with Touch LCD Management IPv6/IPv4 WAN PoE+ 802.1Q VLAN HW NAT Smart LCD LCD Operation Mode Dashboard Router Switch Current Mode: Router 1 2 3 4 Cancel Apply Status Sidesnow 1756 1700 2000 1756 59% 1 2 3 4 71w KIME Restriction Switch PLANET USB WALUS

IPv6 Support for IoT Networking

With billions of new IoT devices entering the market each year, IPv4 is faced with the issue of not being able to fulfill the requirements of connecting all the IoT products together. IPv6 offers a highly-scalable address scheme that provides a unique 64-bit host ID to every present and future IoT device. It is sufficient to address the needs of any present and future communication device. That means IPv6 allows IoT products to be uniquely addressable without having to work around all of the traditional NAT and firewall issues.

The WGR-500 Series supports both IPv6 and IPv4 to ensure industrial Ethernet with a smooth migration path from the IPv4-based networks to the full IPv6 infrastructure. It assigns IPv6 addresses to clients and passes the IPv6 traffics through the IPv4 environment. The WGR-500-4P supports IPv4 tunneling (6to4 transition tunnel) implementations for IoT connectivity.

Planet WGR-500-4PV - IPv6 Support for IoT Networking - 1

flowchart
graph LR
    A["Internet"] -->|IPv6| B["WGR-500-4PV"]
    B --> C["IoT"]
    C --> D["IPv6"]
    C --> E["IPv6"]
    C --> F["IPv6"]
    C --> G["IPv6"]
    C --> H["IPv6"]
    C --> I["IPv6"]
    C --> J["IPv6"]
    C --> K["IPv6"]
    C --> L["IPv6"]
    C --> M["IPv6"]
    C --> N["IPv6"]
    C --> O["IPv6"]
    C --> P["IPv6"]
    C --> Q["IPv6"]
    C --> R["IPv6"]
    C --> S["IPv6"]
    C --> T["IPv6"]
    C --> U["IPv6"]
    C --> V["IPv6"]
    C --> W["IPv6"]
    C --> X["IPv6"]
    C --> Y["IPv6"]
    C --> Z["IPv6"]
    C --> AA["IPv6"]
    C --> AB["IPv6"]
    C --> AC["IPv6"]
    C --> AD["IPv6"]
    C --> AE["IPv6"]
    C --> AF["IPv6"]
    C --> AG["IPv6"]
    C --> AH["IPv6"]
    C --> AI["IPv6"]
    C --> AJ["IPv6"]
    C --> AK["IPv6"]
    C --> AL["IPv6"]
    C --> AM["IPv6"]
    C --> AN["IPv6"]
    C --> AO["IPv6"]
    C --> AP["IPv6"]
    C --> AQ["IPv6"]
    C --> AR["IPv6"]
    C --> AS["IPv6"]
    C --> AT["IPv6"]
    C --> AU["IPv6"]
    C --> AV["IPv6"]
    C --> AW["IPv6"]
    C --> AX["IPv6"]
    C --> AY["IPv6"]
    C --> AZ["IPv6"]
    C --> BA["IPv6"]
    C --> BB["IPv6"]
    C --> BC["IPv6"]
    C --> BD["IPv6"]
    C --> BE["IPv6"]
    C --> BF["IPv6"]
    C --> BG["IPv6"]
    C --> BH["IPv6"]
    C --> BI["IPv6"]
    C --> BJ["IPv6"]
    C --> BK["IPv6"]
    C --> BL["IPv6"]
    C --> BM["IPv6"]
    C --> BN["IPv6"]
    C --> BO["IPv6"]
    C --> BP["IPv6"]
    C --> BQ["IPv6"]
    C --> BR["IPv6"]
    C --> BS["IPv6"]
    C --> BT["IPv6"]
    C --> BU["IPv6"]
    C --> BV["IPv6"]
    C --> BW["IPv6"]

Secure Firewall Protection

The denial-of-service attacks (DoS) attempt to consume resources and therefore deny users network and application access. There are two types of DoS attacks – SYN floods and Ping of Death that consume actual server resources, or those of intermediate communication equipment, such as firewalls and load balancers, and the other, volume-based attacks like UDP/ICMP floods and other spoofed-packet floods that would saturate the bandwidth of the attacked site.

The WGR-500 Series provides firewall to protect IoT devices against networking attack like denial-of-service (DoS), and emerging malicious traffic before attacks can occur. With firewall protection, it prevents IoT network from threats and keeps networking more secure.

Planet WGR-500-4PV - Secure Firewall Protection - 1

flowchart
graph TD
    A["Internet"] --> B["Industrial Router Mode"]
    B --> C["Factory"]
    B --> D["Transportation"]
    B --> E["Smart Lighting"]
    B --> F["PoE Sensor"]
    B --> G["PoE Wireless AP"]
    B --> H["PoE IP Cam"]
    B --> I["Blocking DoS Attack"]
    style A fill:#f9f,stroke:#333
    style B fill:#ccf,stroke:#333
    style C fill:#cfc,stroke:#333
    style D fill:#fcc,stroke:#333
    style E fill:#cff,stroke:#333
    style F fill:#ffc,stroke:#333
    style G fill:#cfc,stroke:#333
    style H fill:#fcc,stroke:#333
    style I fill:#ffc,stroke:#333

VLAN Support for Isolated Traffic and Security

Virtual LANs (VLANs) offer the logical grouping technique to separate the physical ports of Ethernet switch. It can separate private network into several parts for different users. If there are too many computers or networking devices in the same network segment, it will result in heavy traffics locally. Besides, VLANs provide enhanced network security that network administrators can control over each port and whatever resources it is allowed to use.

The WGR-500 Series supports 802.1Q VLAN to separate traffic of users and IoT devices and can work as an intelligent traffic forwarder to control traffic and isolate connections of two groups. It will not only optimize bandwidth but also improve network security.

Planet WGR-500-4PV - VLAN Support for Isolated Traffic and Security - 1

flowchart
graph TD
    A["Internet"] -->|VLAN1| B["WGR-500-4PV"]
    B --> C["VLAN 1: User"]
    B --> D["VLAN 2: IoT Devices"]
    B --> E["Isolated Connection"]
    E --> F["Smart Lighting"]
    E --> G["PoE Sensor"]
    E --> H["PoE Wireless AP"]
    E --> I["PoE IP Cam"]

Built-in Unique PoE Functions for Powered Devices Management

The WGR-500 Series is capable of having a maximum of up to 120 watts of power output and can deliver up to 36W for each port. It also features the following special PoE management functions:

■ PoE usage monitoring

With PoE usage monitoring, it can show the PoE loading of each port, total PoE power usage and system status, such as overload, low voltage, over voltage and high temperature. User can obtain detailed information about the real-time PoE working condition of the WGR-500-4P directly.

■ PoE schedule

Under the trend of energy saving worldwide and contributing to environmental protection, the WGR-500-4P can effectively control the power supply besides its capability of giving high watts power. The "PoE schedule" function helps you to enable or disable PoE power feeding for each PoE port during specified time intervals and it is a powerful function to help SMBs or enterprises save power and budget. It also increases security by powering off PDs that should not be in use during non-business hours.

Planet WGR-500-4PV - ■ PoE schedule - 1

flowchart
graph TD
    A["8AM"] --> B["Sun"]
    C["5PM"] --> B
    B --> D["Power On 6 Watts"]
    B --> E["Power On 6 Watts"]
    B --> F["Power On 12 Watts"]
    B --> G["Power On 12 Watts"]
    D --> H["Total consumption of 36 watts/hr"]
    E --> H
    F --> H
    G --> H

Planet WGR-500-4PV - ■ PoE schedule - 2

flowchart
graph TD
    A["SIN"] --> B["Switch"]
    C["BAN"] --> B
    B --> D["Power Off: 6 Watts"]
    B --> E["Power Off: 6 Watts"]
    B --> F["Power Off: 12 Watts"]
    B --> G["Power On: 12 Watts"]
    D --> H["Save 24 watts/hr during off-business hours"]
    E --> H
    F --> H
    G --> H
    style B fill:#f9f,stroke:#333
    style C fill:#f9f,stroke:#333

Planet WGR-500-4PV - ■ PoE schedule - 3

1000Base-T UTP with PoE

■ PD alive check

The WGR-500 Series can be configured to monitor connected PD status in real time via ping action. Once the PD stops working and responding, the WGR-500-4P will resume the PoE port power and bring the PD back to work. It will greatly enhance the network reliability through the PoE port resetting the PD's power source and reducing administrator management burden.

Planet WGR-500-4PV - ■ PD alive check - 1

flowchart
graph LR
    A["PD Status Good!!"] -->|Ping Request| B["PT PoE Camera"]
    B -->|Ping Echo| A

Step 2 No Response...... Ping Request Check alive status for 3 times

Planet WGR-500-4PV - ■ PD alive check - 3

flowchart
graph LR
    A["Alarm Notification"] --> B["On"]
    B --> C["OFF"]
    C --> D["Restart PoE device if without response"]

Planet WGR-500-4PV - ■ PD alive check - 4

flowchart
graph LR
    A["PD Alive!!"] --> B["On"]
    B --> C["PoE"]
    C --> D["ON"]
    D --> E["End"]

Innovative Wall-mount Installation

The WGR-500 Series is specially designed to be installed in a narrow environment, such as wall enclosure. The compact, flat and wall-mounted design fits easily in any space-limited location. It adopts the user-friendly “Front Access” design, making the installing, cable wiring, LED monitoring and maintenance of the WGR-500 Series placed in an enclosure very convenient for technicians. The WGR-500 Series can be installed by fixed wall mounting, magnetic wall mounting or DIN rail, thereby making its usability more flexible.

Planet WGR-500-4PV - Innovative Wall-mount Installation - 1

natural_image Interior view of an open industrial control box with a digital display and internal wiring (no visible text or symbols)

1.3. Product Features

Physical Port

■ 4-port 10/100/1000BASE-T RJ45 with IEEE 802.3af / 802.3at PoE injector
■ 1-port 10/100/1000BASE-T RJ45 for WAN port or LAN port interface (router mode or switch mode)
■ 1 x USB 3.0 port for backup and restoration of configuration file

Power over Ethernet

■ Up to 4 ports of IEEE 802.3af/802.3at devices powered
■ Supports PoE power up to 36 watts for each PoE port
■ Auto detects powered device (PD)
■ Remote power feeding up to 100 meters
■ PoE Management
- PoE Port status monitoring
- Total PoE power budget control
- Per port PoE function enable/disable
- PoE Port power feeding priority
- Per PoE port power limit
- PD classification detection
- PoE alive check

Industrial Case and Installation

■ Compact size with fixed wall mounting, magnetic wall mounting or DIN-rail mounting
■ IP30 metal case
■ Supports -10 to 60 degrees C operating temperature
■ Supports ESD 6KV DC Ethernet protection
■ Dual power input design
- 48V\~56V DC wide power input with polarity reverse protect function
- 3-pin terminal block or DC jack connector

Layer 2 Features

■ Supports IEEE 802.1Q tagged VLAN
■ Supports IEEE 802.1D Spanning Tree Protocol (STP)

Layer 3 IP Routing Features

■ IPv6 support
■ WAN Internet types: Dynamic IP(DHCP Client), static IP, PPPoE, L2TP, PPTP
■ Static and dynamic (RIP1 and 2) routing
■ Supports Port Forwarding, DMZ, and UPnP for various networking applications
■ IP/MAC-based bandwidth control
■ Supports Dynamic DNS and PLANET DDNS

Security

■ Port filtering lets you either allow or prevent which application can access the Internet.
■ MAC filtering allows you to include or exclude computers and devices based on their MAC address
■ URL filtering allows you to control access to Internet websites in an URL list
■ DoS attack prevention

Management

■ Management Interfaces
- 2.4-inch color LCD touch screen (only for WGR-500-4PV)
- Web GUI management
■ Static and DHCP for IP address assignment
■ System Maintenance
- Firmware upload/download via HTTP - Hardware reset button for system reboot or reset to factory default
■ NTP Network Time Protocol
■ Event message logging to remote syslog server
■ PLANET Smart Discovery Utility for deployment management

1.4. Product Specifications

ProductWGR-500-4PWGR-500-4PV
Hardware Specifications
InterfaceLAN4 x 10/100/1000 BASE-T, auto-negotiation, auto MDI/MDI-X RJ45 port
WAN1 x 10/100/1000 BASE-T, auto-negotiation, auto MDI/MDI-X RJ45 port
LCD Monitor (W x H) N/A50mm x 37mm, 2.4-inch TFT color touchscreen
USB Port1 x USB 3.0 for backup and restoration of configuration file
Reset Button< 5 sec: System reboot> 5 sec: Factory default
ESD Protection6KV DC
EnclosureIP30 metal case
InstallationDIN-rail, wall mounting, and magnet
ConnectorRemovable 3-pin terminal block for power input- Pin 1/2 for Power (Pin 1: V+ / Pin 2: V-) - Pin 3 for earth groundDC power jack with 2.1mm central pole
LED IndicatorSystem:Internet (Green)PWR (Green)SYS (Green)Per 10/100/1000T RJ45 Ports:10/100 LNK/ACT (Green)1000 LNK/ACT (Amber)PoE Usage:120W (Amber)90W (Amber)60W (Amber)30W (Amber)System:Internet (Green)PWR (Green)SYS (Green)Per 10/100/1000T RJ45 Ports :10/100 LNK/ACT (Green)1000 LNK/ACT (Amber)
Dimensions (W x D x H)180 x 140 x 24.4 mm180 x 140 x 24.4 mm
Weight714 g728 g
Power RequirementsDual 48~56V DC (>51V DC for PoE+ output recommended)
Power ConsumptionMax. 7.3 watts/24.9 BTU (Power on without any connection)Max. 132 watts/450 BTU (Full loading with PoE)Max. 7.6 watts/25.9 BTU (Power on without any connection)Max. 134 watts/457 BTU (Full loading with PoE)
Router Features
Internet Connection TypeShares data and Internet access for users, supporting the following internet accesses:■ PPPoE■ Static IP■ Dynamic IP
Routing ProtocolStatic routingRIPv1/2
SecurityDOS protectionMAC/IP/Port/URL filtering
Protocol / Feature802.1Q tag-based VLAN802.1d spanning treeQoSNATPort ForwardingDMZUPnP and PLANET DDNS
System ManagementWeb-based (HTTP) configurationNTP time synchronizationSystem log supports remote logSNMP v1, v2c
Power Over Ethernet
PoE StandardIEEE 802.3at Power over Ethernet Plus/PSE
PoE Power Supply TypeEnd-span
PoE Power OutputIEEE 802.3af Standard- Per port 48V~51V DC (depending on the power supply), max. 15.4 wattsIEEE 802.3at Standard- Per port 51V~56V DC (depending on the power supply), max. 36 watts
Power Pin Assignment1/2(+), 3/6(-)
PoE Power Budget120W maximum (depending on power input)
Max. Number of Class 4 PDs4
Standards Conformance
Regulatory ComplianceFCC Part 15 Class A, CE
Stability TestingIEC60068-2-32 (free fall)IEC60068-2-27 (shock)IEC60068-2-6 (vibration)
Standards ComplianceIEEE 802.3 10BASE-TIEEE 802.3u 100BASE-TX/100BASE-FXIEEE 802.3ab Gigabit 1000TIEEE 802.3af Power over EthernetIEEE 802.3at Power over Ethernet PlusIEEE 802.1D Spanning Tree ProtocolIEEE 802.1p Class of ServiceIEEE 802.1Q VLAN taggingRFC 768 UDPRFC 793 TFTPRFC 791 IPRFC 792 ICMPRFC 2068 HTTP
Environment
Operating Temperature-10 ~ 60 degrees C
Storage Temperature-20 ~ 70 degrees C
Humidity5 ~ 95% (non-condensing)

Chapter 2. Hardware Installation

This chapter describes the hardware of the industrial wall-mount Gigabit router and gives a physical overview and different installation methods.

2.1 Product Outlook

This section describes the hardware features of the industrial wall-mount Gigabit router. For easier management and control of the industrial wall-mount Gigabit router, familiarize yourself with its display indicators and ports.

2.1.1 Front and Bottom Panel

The front panel provides a simple interface monitoring the industrial wall-mount Gigabit router. Figures 2-1 and 2-2 show the front panels of the industrial wall-mount Gigabit routers.

WGR-500-4P

PLANET Networking & Communications PoE Managed Market Monitoring WCR-5000-AF PoE Lagoon 12000 3001 4001 8001 3115 LAN WANLAN 1 2 3 4 Rackener Switch

Figure 2-1: Front Panel of WGR-500-4P

WGR-500-4PV

HOME Dashboard Foc Domain Mode LAN Smart LCD PLANET Networking & Communication PoE+ Managed Magnetic Mounting WGB-004-FV ● Internal ● Porte ● Web LAN SAMS WANSL FV PLANECT PHASE-21.13x DC Input Fanges 10 GBV

Figure 2-2: Front Panel of WGR-500-4PV

Reset Button

The bottom of the industrial wall-mount Gigabit router comes with a reset button designed for rebooting system or resetting to factory default. The reset buttons are shown in Figures 2-3 and 2-4 and following is the summary table of reset button functions:

Reset Router Switch

Figure 2-3: Reset Button of WGR-500-4P

Reset

Figure 2-4: Reset Button of WGR-500-4PV

Reset Button Pressed and ReleasedFunction
< 5 sec: System RebootReboot the system.
> 5 sec: Factory DefaultReset the system to factory default. The industrial wall-mount Gigabit router will then reboot and load the default settings as shown below:Default Username: adminDefault Password: adminDefault IP Address: 192.168.1.1Subnet Mask: 255.255.255.0Default Gateway: 192.168.1.254

DIP Switch

Only the WGR-5004P has the DIP switch, which is for selecting an operation mode. The DIP switch is shown in Figure 2-5.

Reset Router Switch

Figure 2-5: DIP Switch of WGR-500-4P

2.1.2 LED Indications

The LED indicators of the WGR-500-4P and WGR-500-4PV are shown in Figures 2-6 and 2-7.

WGR-500-4P

PLANET Networking & Communication PoE + Managed Magnet Mounting WGB-500-4P Ground V- V+ DC Input Range 48-96V PoE Usage 120W 30W 60W 30W Internet PWR SYS LAN USB WANLAN LinkACT PoE-In-Use 1 2 3 4 PoE Router Switch

Figure 2-6: LED Indicators of WGR-500-4P

System

LED Color Function
Internet GreenLights:Internet is synchronized successfully in the route mode.
Blinks:Internet data is being transmitted.
PWRGreenLights to indicate that the Switch has power.
SYSGreenLights to indicate the system is working.

■ PoE Usage LED

LED Color Function
120W AmberLights:To indicate the PoE usage is up to 120W.
Blinks:To indicate the PoE usage is more than 90W but less than 120W.
90WAmberLights:To indicate the PoE usage is over 90W.
Blinks:To indicate the PoE usage is more than 60W but less than 90W.
60WAmberLights:To indicate the PoE usage is over 60W.
Blinks:To indicate the PoE usage is more than 30W but less than 60W.
30WAmberLights:To indicate the PoE usage is over 30W.
Blinks:To indicate the PoE usage is less than 30W.

■ LAN Per 10/100/1000Mbps PoE Port (Port-1 to Port-4) LED

LED Color Function
LNK/ACT GreenLights:To indicate the link through that port is successfully established a 10/100Mbps.
Blinks:To indicate that the switch is actively sending or receiving data ove that port.
PoE In-UseAmberLights:To indicate the port is providing 48V~56VDC in-line power.
Blinks:To indicate the connected device is not a PoE powered device (PD).

■ WAN Per 10/100/1000Mbps RJ45 Port (Port-5)

LED Color Function
LNK/ACT GreenLights:To indicate the link through that port is successfully established a 10/100/1000Mbps.
Blinks:To indicate that the switch is actively sending or receiving data ove that port.

WGR-500-4PV

HOME Dashboard PoE Operation Mode LAN Smart LCD PLANET Networking & Communication PoE+ Managed Magnet Mounting WGB-500-4PV Ground V- V+ DC Input Range 48-56V Internet PWR SYS LAN USB WAN/LAN LINK/ACT PoE-In-Use 1 2 3 4 PoE 5

Figure 2-7: LED Indicators of WGR-500-4PV

System

LED Color Function
InternetGreenLights:Internet is synchronized successfully in the route mode.
Blinks:Internet data is being transmitted.
PWRGreenLights to indicate that the Switch has power.
SYSGreenLights to indicate the system is working.

■ LAN Per 10/100/1000Mbps PoE Port (Port-1 to Port-4) LED

LED Color Function
LNK/ACT GreenLights:To indicate the link through that port is successfully established a 10/100Mbps.
Blinks:To indicate that the switch is actively sending or receiving data over that port.
PoE In-UseAmberLights:To indicate the port is providing 48V~56VDC in-line power.
Blinks:To indicate the connected device is not a PoE powered device (PD).

■ WAN Per 10/100/1000Mbps RJ45 Port (Port-5)

LED Color Function
LNK/ACT GreenLights:To indicate the link through that port is successfully established at 10/100/1000Mbps.
Blinks:To indicate that the switch is actively sending or receiving data over that port.

2.1.3 Wiring the Power Inputs

The industrial wall-mount Gigabit router features a strong dual power input system (Terminal block and DC jack) incorporated into customer's automation network to enhance system reliability and uptime. The dual power design is shown in Figure 2-8.

Model\Range\Power Input3-pin Terminal BlockDC Jack
WGR-500-4P48~56V DC48~56V DC
WGR-500-4PV48~56V DC48~56V DC

3-pin Terminal Block Ground V- V+ DC Input Range 48.56V Home Dashboard PoE Operation Mode LAN Smart LCD PLANET Networking & Communication PoE + Managed Magnet Mounting W/C: 500-4PS Internet PORT SYS LAN USB WAN/LAN + LINKACT + PoE-in-Use 1 2 3 4 5 DC Plug-in 10/100/1000BASE-T RJ45 Ports

Figure 2-8: Dual Power Design of WGR-500-4PV

■ Terminal Block Connector Pinout

To install the 3-pin Terminal Block Connector on the industrial wall-mount Gigabit router, simply follow the following steps:

Step 1: Insert positive DC power wire into V+, negative DC power wire into V-, and grounding wire into Ground as shown in Figure 2-9.

Ground V- V+

Figure 2-9: Terminal Block Connector

Step 2: Tighten the wire-clamp screws for preventing the wires from loosening and plug them into the industrial wall-mount Gigabit router

Planet WGR-500-4PV - ■ Terminal Block Connector Pinout - 2

  1. The wire gauge for the terminal block should be in the range of 12 \~ 24 AWG.
  2. When performing any of the procedures like inserting the wires or tightening the wire-clamp screws, make sure the power is OFF to prevent from getting an electric shock.

DC Power Jack

The WGR-500-4P and WGR-500-4P come with DC 48V\~56V power input. The DC power jack is shown in Figure 2-10. If you have the issue of power connection, please contact your local sales representative.

Planet WGR-500-4PV - DC Power Jack - 1

2.1mm

DC Receptacle 2.1mm

+48\~56V for each slot

Planet WGR-500-4PV - DC Power Jack - 2

DC receptacle is 2.1mm wide that conforms to the WGR-500 series 2.1mm DC jack's central post. Do not install any improper unit.

Figure 2-10: DC Power Jack

2.2 Installing the industrial wall-mount Gigabit router

This section describes how to install your industrial wall-mount Gigabit router and make connections. Please read the following sections and perform the procedures in the order being presented.

2.2.1 Wall-mount Installation

To install the industrial wall-mount Gigabit router on the wall, simply follow the following steps:

Step 1: There are 4 holes with 8mm diameter on the wall mount bracket of the Industrial wall-mount Gigabit router as shown in Figure 2-11. The distance between the 2 holes is 165mm of WGR-500-4PV and WGR-500-4P and the line through them must be horizontal.

Ø4mm Ø8mm 6mm 165mm

Figure 2-11: Getting Mounting Holes Aligned

Step 2: Install a conductor pipe inside the board hole and flush the edge of the conductor pipe with the wall surface.

Step 3-1: Screw the bolts into the conductor pipe. The industrial wall-mount Gigabit router is between bolts and conductor pipe as shown in Figure 2-12.

HOME Dashboard Fus Operation Mode LAN Smart LCD PLANET Intersecting & Communication Fus. 1 Manager / Manager Measurement WCA 100 MHz ○ Interface ○ Plan ○ EYS LAN USB WABU-LAN ● CONNECT ● FUS BOX 45.007

Figure 2-12: Router is screwed to the wall

Step 3-2: Insert screws into the wall anchors, leaving 2mm of each screw exposed. Place the wall-mount slots over the screws and slide the device down until the screws fit snugly into the wall-mount slots. The industry router can be hung on the wall as shown in Figure 2-13.

PLANET Wireless Communication PLNET Monoprod Monos Nanowix WECOMINIX LAN 2mm

Figure 2-13: Router is hung on the wall

2.2.2 Magnet Installation

To install the industrial wall-mount Gigabit router on a magnetic surface, simply follow Figure 2-14 below:

PLANET Networking & Connection PLNET LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAN LAM10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000

Figure 2-14: Router is magnetically installed

2.2.3 DIN-rail Installation

The DIN-rail kit is included in the package. When the wall-mount application for the industrial wall-mount Gigabit router needs to be replaced with DIN-rail application, please refer to the following figures to screw the DIN-rail on the industrial wall-mount Gigabit router. To hang up the industrial wall-mount Gigabit router, follow the steps below:

Step 1: Screw the DIN-rail bracket on the Industrial Router as shown in Figure 2-15.

Planet WGR-500-4PV - DIN-rail Installation - 1

natural_image Technical line drawing of a mechanical assembly with mounting flanges and a bracket (no text or symbols)

Figure 2-15: DIN-rail bracket is attached to router

Step 2: Lightly insert the DIN-rail bracket into the track as shown in Figure 2-16.

PLANT Connect Click ①Push ② Click

Figure 2-16: Router is placed on the track

Step 3: Router is placed on the track as shown in Figure 2-17

Technical line drawing of a Planet device with labeled ports and control panel

Figure 2-17: Router is tightly fixed on the track

Chapter 3. Router Management

This chapter explains the methods that you can use to configure management access to the industrial wall-mount Gigabit router. It describes the types of management applications and the communication and management protocols that deliver data between your management device (workstation or personal computer) and the system. It also contains information about port connection options.

This chapter covers the following topics:

  • Requirements
    ■ Web Management Access
    ■ LCD Touch Screen Access

3.1 Requirements

■ Workstation running Windows XP/2003, Vista, Windows 7/8/10, MAC OS X, Linux, Fedora, Ubuntu or other platform is compatible with TCP/IP protocols.
■ Workstation is installed with Ethernet NIC (Network Interface Card)
■ Ethernet Port
- Network cables -- Use standard network (UTP) cables with RJ45 connectors.
■ The above workstation is installed with Web browser and JAVA runtime environment Plug-in

Planet WGR-500-4PV - Requirements - 1

It is recommended to use Internet Explorer 8.0 or above to access industrial wall-mount Gigabit router.

3.2 Web Management

The industrial wall-mount Gigabit router offers management features that allow users to manage the industrial wall-mount Gigabit router from anywhere on the network through a standard browser such as Microsoft Internet Explorer. After you set up your IP address for the industrial wall-mount Gigabit router, you can access the industrial wall-mount Gigabit router's Web interface applications directly in your Web browser by entering the IP address of the industrial wall-mount Gigabit router.

The following shows how to start up the Web Management of the Industrial wall-mount Gigabit router. Note the Industrial Router is configured through an Ethernet connection. Please make sure the manager PC must be set to the same IP subnet address. For example, the default IP address of the Industrial Router is 192.168.1.1, then the manager PC should be set to 192.168.1.x (where x is a number between 1 and 254) and the default subnet mask is 255.255.255.0 as shown in Figure 3-1.

Planet WGR-500-4PV - Web Management - 1

flowchart
graph LR
    A["Industrial Router"] -->|IP Address: 192.168.1.1| B["RJ45/UTP Cable"]
    B --> C["PC / Workstation with Web Browser 192.168.1.x"]

Figure 3-1: Web Management

You can then use your Web browser to list and manage the industrial wall-mount Gigabit router configuration parameters from one central location; the Web Management requires Microsoft Internet Explorer 8.0 or later.

  1. Use Internet Explorer 8.0 or above Web browser and enter IP address http://192.168.1.1 to access the Web interface.
  2. When the following dialog box appears, please enter "admin" in both the default user name and password fields. The login screen shown in Figure 3-2 appears.

Default IP Address: 192.168.1.1

Default Username: admin

Default Password: admin

Authentication required http://192.168.1.1 Your connection to this site is not private Username | Password Log in Cancel

Figure 3-2: Web login Screen

After successfully logging into the web UI of the WGR-500 Series, you will see the main menus on the menu bar and sub menus on the left side. The Figure 3-3 is the web main page of the WGR-500-4PV.

PLANET Networking & Communication 42W 1 2 3 4 5/WAN WGR-500-4PV Dashboard Wizard Status Statistics Operation Mode Date and Time User Configuration SNMP LCD Log System Network Security PoE Maintenance Port Status System Information Mode: Router IP Address: 192.168.1.1 MAC Address: a8.17.e0.81.96.c1 Software Version: v1.3411b161012 System Date: 2018/11/05 System Uptime: 0day 0h:56m:30s USB ---- LAN ---- WAN 2.9% CPU 22.3% Memory 35% PoE Budget

Figure 3-3: Web Main Page of WGR-500-4PV

3.3 LCD Touch Screen

The WGR-500-4PV has a 2.4-inch color LCD touch screen with management functions. Tap the LCD touch screen to wake the LCD touch screen as hown in Figure 3-4.

HOME Operation Mode

Figure 3-4: To wake the LCD touch screen

The factory default LCD configurations are shown as follows.

Default LCD: Enable
Default Touch Screen: Enable
Default Backlight Timeout: Enable
Default Backlight Timeout Time: 300
Default Read Only Mode: Disable
Default Screen: Main Menu
Default Time Interval: 10
Default Color Scheme: Dark
Default Pin Number: 1234 

You can use the Web management interface and click LCD, and then in the LCD Management, change LCD configuration hown in Figure 3-5.

WGR-500-4PV Dashboard Wizard Status Statistics Operation Mode Date and Time User Configuration SNMP LCD Log LCD Status This page shows the current status and some basic settings of the LCD. LCD Enabled ▼ Touch Screen Enabled ▼ Backlight Timeout Enabled ▼ Backlight Timeout Time 300 Sec Read Only Mode Disabled ▼ Default Screen Main Menu ▼ Time Interval 16 Sec Color Scheme Dark Light Pin Number 1234 Save Save & Apply Reset

Figure 3-5: LCD Status

Starting Touchscreen Setup Wizard

The wizard will guide your through the setup of your industrial wall-mount Gigabit router. For example, when the WGR-500-4PV is in router mode, and the touchscreen wizard helps you set up the following configurations in minutes.

Setting up Operation Mode
Setting up LAN Interface
Setting up WAN Interface
Finish

Begin by clicking on "Start"

Step 1 Step 2 Step 3
Setup Wizard The Wizard will guide you the through following steps. Begin by click on "Start" 1. Setup Operation Mode 2. Setup LAN Interface 3. Setup WAN Interface Start >>Operation Mode Router Switch Cancel ApplyLAN Setup Current IP: 192.168.1.1 IP Address: 192 . 168 . 1 . 1 Mask Length: 24 << Back Next >>
Step 4 Step 5
WAN Setup WAN Type: Static IP L2TP PPPoE PPTP DCHP Client << Back Next >>Complete Congratulations your device has been configured. Click "Finish" to apply the settings. Finish

When you configure WAN setup, it may require to input user name and password. User can use the following key panels to input letters, numbers and symbols from the LCD screen.

Letters Numerals Symbols J ABC DEF X GHI JKL MNO I PQRS TUVWXYZ I→ Aa 123 #+= Cancel Apply J 1 2 3 X 4 5 6 I 7 8 9 I→ Aa 123 #+= Cancel Apply J - / : X ; . , I $ & @ I→ Aa 123 #+= Cancel Apply

After finishing the procedures, the industrial wall-mount Gigabit router is now successfully configured. You may now attach the xDSL/fiber/cable modem and Ethernet equipment to the wired ports on the front panel of the industrial wall-mount Gigabit router. The Figure 3-6 shows the main menu that allows user to access different router and PoE features. Tap Up/Down to access all settings.

HOME Dashboard PoE Operation Mode LAN

Figure 3-6: Main Menu on LCD Screen

Chapter 4. Configuration in Web UI

This chapter describes how to use Web-based browser interface for configuring and managing industrial wall-mount Gigabit router.

4.1 Main Web Page

After a successful login, the main web page appears. The web main page shown in Figure 4-1 displays the web panel, main menu, function menu, and the main information in the center.

Main menu PLANET Networking & Communication 42W 1 2 3 4 5WAN Web panel WGR-580-4PV System Network Security PoE Maintenance Dashboard Wizard Status Statistics Operation Mode Date and Time User Configuration SNMP LCD Log Port Status USB LAN WAN Function menu System Information Mode: Router IP Address: 192.168.1.1 MAC Address: a8.67 e0.61.96 c1 Software Version: v1.3411b181012 System Date: 20181105 System Uptime: 0day 0h 55m:38s 2.9% CPU 22.3% Memory 35% PoE Budget

Figure 4-1: Web Main Page

Web Panel

The web panel displays an image of the industrial wall-mount Gigabit router's ports as shown in Figure 4-2.

42W 1 2 3 4 5/WAN

Figure 4-2: Web Panel

ObjectIconFunction
PoE CosumptionPlanet WGR-500-4PV - Web Panel - 2To indicate the PoE consumption.
LANPlanet WGR-500-4PV - Web Panel - 3To indicate the LAN with the RJ45 plug-in.
Planet WGR-500-4PV - Web Panel - 4To indicate the PoE is in use.
Planet WGR-500-4PV - Web Panel - 5To indicates network data is sending or receiving

The main menu displays the product name, function menu, and main information in the center. Via the Web management, the administrator can set up the industrial wall-mount Gigabit router by selecting the functions those listed in the function menu and button as shown in Figures 4-3 and 4-4.

System Network Security PoE Maintenance

Figure 4-3: Function Menu

Object Description
SystemProvides System information of industrial wall-mount Gigabit router.
NetworkProvides WAN, LAN and network configuration of industrial wall-mount Gigabit router.
SecurityProvides QoS and security configuration of industrial wall-mount Gigabit router.
PoEProvides PoE Management configuration of industrial wall-mount Gigabit router.
MaintenanceProvides firmware upgrade and setting file restore/backup configuration of industrial wall-mount Gigabit router

Planet WGR-500-4PV - Main Menu - 2
Figure 4-4: Function Button

Object Description
Planet WGR-500-4PV - Main Menu - 3Click the "Refresh button" to refresh the current Web page.
[w67D]Click the "Save/Restore configuration button" to go to Save/Restore configuration page.
Planet WGR-500-4PV - Main Menu - 4Click the "Help button" to show the function descriptions of the current pages.
Planet WGR-500-4PV - Main Menu - 5Click the "Logout button" to log out the web UI of the industrial wall-mount Gigabit router.

4.2 System

Use the System menu items to display and configure basic administrative details of the industrial wall-mount Gigabit router. The System menu shown in Figure 4-5 provides the following features to configure and monitor system.

Dashboard Wizard Status Statistics Operation Mode Date and Time User Configuration SNMP LCD Log

Figure 4-5: System Menu

Object Description
DashboardThe overview of system information includes connection, port, and system status
WizardThe Wizard will guide the user to configuring the router easily and quickly.
StatusDisplay the status of the system, LAN and WAN.
StatisticsDisplay statistics information of network traffic of LAN and WAN
Operation ModeDisplay the current operation mode, and users can set different modes to LAN interface.
Date and TimeAllow to set system time by manual or synchronize system time from Internet NTP server.
User ConfigurationAllow to change the username and password of industrial wall-mount Gigabit router.
SNMPDisplay SNMP system information.
LCDAllow to manage LCD control panel
LogProvides the system log setting and information display of industrial wall-mount Gigabit router

4.2.1 Dashboard

The dashboard provides an overview of system information including connection, port, and system status as shown in Figure 4-6.

Planet WGR-500-4PV - Dashboard - 1

flowchart
graph LR
    A["Port Status"] --> B["System Information"]
    B --> C["PU.NET"]
    B --> D["USB"]
    B --> E["WAN"]
    B --> F["CPU"]
    B --> G["Memory"]
    B --> H["PoE Budget"]
    style A fill:#f9f,stroke:#333
    style B fill:#ccf,stroke:#333
    style C fill:#dfd,stroke:#333
    style D fill:#dfd,stroke:#333
    style E fill:#dfd,stroke:#333
    style F fill:#dfd,stroke:#333
    style G fill:#dfd,stroke:#333
    style H fill:#dfd,stroke:#333

Figure 4-6: Dashboard

WAN/LAN Connection Status

Object Description
Planet WGR-500-4PV - Dashboard - 2The status means WAN is connected to Internet and LAN is connected.
Planet WGR-500-4PV - Dashboard - 3The status means WAN is disconnected to Internet and LAN is connected.
Planet WGR-500-4PV - Dashboard - 4The status means WAN is connected to Internet and LAN is disconnected.

Port Status

Object Description
Planet WGR-500-4PV - Dashboard - 5LAN or WAN port is in use.
Planet WGR-500-4PV - Dashboard - 6LAN or WAN port is not in use.
Planet WGR-500-4PV - Dashboard - 7USB port is in use.
Planet WGR-500-4PV - Dashboard - 8USB port is not in use.

System Information

Object Description
ModeDisplay the current operation mode.
IP AddressDisplay the current IP address of industrial wall-mount Gigabit router.
MAC AddressDisplay the LAN MAC address of industrial wall-mount Gigabit router.
Software VersionDisplay the current firmware version of industrial wall-mount Gigabit router.
System DateDisplay the current system date of Industrial wall-mount Gigabit router.The system date will be correct if NTP function is enabled and the Hub is connected to Internet.
System UptimeDisplay the period of time the device has been operational.
CPUDisplay the CPU loading
MemoryDisplay the memory usage
PoE UsageDisplay the PoE usage

4.2.2 Wizard

The Wizard will guide the user to configuring industrial wall-mount Gigabit router easily and quickly. There are different procedures in different operation modes. According to the operation mode you switch to, please follow the instructions below to configure industrial wall-mount Gigabit router via Setup Wizard as shown in Figure 4-7.

Setup Wizard

The setup wizard will guide you to configure access point for first time. Please follow the setup wizard step by step.

Welcome to Setup Wizard.

The Wizard will guide you the through following steps. Begin by clicking on Next.

  1. Setup Operation Mode
  2. Choose your Time Zone
  3. Setup LAN Interface
  4. Setup WAN Interface

Figure 4-7: Setup Wizard

Step 1: Setting Up Operation Mode

The router supports two operation modes, Router and Switch, as shown in Figure 4-8.

Operation Mode

You can setup different modes to LAN interface for NAT and bridging function.

Router:

In this mode, the device is supposed to connect to internet via xDSL/Cable/xPON/Fiber Modem. The NAT is enabled and PCs in LAN ports share the same IP to ISP through WAN port. The connection type can be setup in WAN page by using PPPOE, DHCP client, PPTP client, L2TP client or static IP.

Switch:

In this mode, all Ethernet ports are bridged together and NAT function is disabled. All the WAN related function and firewall are not supported.

Figure 4-8: Setup Wizard – Operation Mode

Object Description
RouterIn this mode, the device is supposed to connect to internet via xDSL/Cable/xPON/Fiber modem. The NAT is enabled and PCs in LAN ports share the same IP with ISP through WAN port. The connection type can be set up in WAN page by using PPPOE, DHCP client, PPTP client , L2TP client or static IP.
SwitchIn this mode, all Ethernet ports are bridged together and NAT function is disabled. All the WAN-related functions and firewall are not supported.

Step 3: Time Zone Setting

The Time Configuration option allows you to configure, update, and maintain the correct time on the internal system clock. Daylight Saving can also be configured to automatically adjust the time when needed.

The setup is shown in Figure 4-9

Time Zone Setting You can maintain the system time by synchronizing with a public time server over the Internet. Enable NTP client update Automatically Adjust Daylight Saving Time Zone Select : (GMT+08.09)Taipei NTP server : 131.188.3.220 - Europe

Figure 4-9: Setup Wizard – Time Zone Configuration

Object Description
Enable NTP client updateCheck this box to connect NTP server and synchronize internet time.
Automatically Adjust Daylight SavingCheck this box to adjust the daylight saving automatically.
Time Zone SelectSelect the Time Zone from the drop-down menu.
NTP ServerSelect the NTP server from the drop-down menu.

Step 4: LAN Interface Setting

Set up the IP Address and Subnet Mask for the LAN interface as shown in Figure 4-10.

LAN Interface Setup This page is used to configure the parameters for local area network which connects to the LAN port of your Access Point. Here you may change the setting for IP addresses, subnet mask, DHCP, etc.. IP Address: 192.158.1.1 Subnet Mask: 255.255.255.0

Figure 4-10: Setup Wizard – LAN Configuration

Object Description
IP AddressEnter the IP address of your Router. The default: 192.168.1.1
Subnet MaskAn address code that determines the size of the network. Normally use 255.255.255.0 as the subnet mask.

Step 5 WAN Interface Setting

The industrial wall-mount Gigabit Router supports five access modes in the WAN side as shown in Figure 4-11. Please choose the correct mode according to your ISP.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of your Access Point. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type:

IP Address:

Subnet Mask:

Default Gateway:

DNS :

Static IP Static IP DHCP Client PPPoE PPTP L2TP 8.8.8.8

Figure 4-11: Setup Wizard – WAN Configuration

Mode 1 - Static IP

Select Static IP Address if all the Internet port's IP information is provided to you by your ISP. You will need to enter the IP address, subnet mask, gateway address, and DNS address provided to you by your ISP. Each IP address entered in the fields must be in the appropriate IP form, which are four octets separated by a dot (x.x.x.x). The Router will not accept the IP address if it is not in this format. The setup is shown in Figure 4-12.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of your Access Point. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type:

IP Address:

Subnet Mask:

Default Gateway:

DNS :

Static IP

172.1.1

255.255.255.0

0.0.0.0

8.8.8.8

Figure 4-12: WAN Interface Setup – Static IP Setup

Object Description
IP AddressEnter the IP address assigned by your ISP.
Subnet MaskEnter the Subnet Mask assigned by your ISP.
Default GatewayEnter the Gateway assigned by your ISP.
DNSThe DNS server information will be supplied by your ISP.

Mode 2 DHCP Client

Select DHCP Client to obtain IP Address information automatically from your ISP. The setup is shown in Figure 4-13.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of your Access Point. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type:

DHCP Client ▼

Figure 4-13: WAN Interface Setup – DHCP Setup

Mode 3 PPPoE

Choose PPPoE (Point to Point Protocol over Ethernet) if your ISP uses a PPPoE connection. Your ISP will provide you with a username and password. This option is typically used for DSL services. The setup is shown in Figure 4-14.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of your Access Point. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type:

PPPoE

User Name:

Planet WGR-500-4PV - WAN Interface Setup - 1

Password:

Figure 4-14: WAN Interface Setup – PPPoE Setup

Object Description
User NameEnter your PPPoE user name.
Password Enter your PPPoE password.

Mode 4 PPTP

Choose PPTP (Point-to-Point-Tunneling Protocol) if your ISP uses a PPTP connection. Your ISP will provide you with IP information and PPTP Server IP Address; of course, it also includes a username and password. This mode is typically used for DSL services. The setup is shown in Figure 4-15.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of your Access Point. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type: PPTP

Dynamic IP (DHCP)

Static IP

IP Address: 172.1.1.2 Subnet Mask: 255.255.255.0 Default Gateway: 0.0.0.0 Server IP Address: 172.1.1.1 User Name: Password:

Figure 4-15: WAN Interface Setup – PPTP Setup

Object Description
IP AddressEnter the IP address.
Subnet MaskEnter the subnet Mask.
Server IP AddressEnter the PPTP Server IP address provided by your ISP.
User NameEnter your PPTP username.
PasswordEnter your PPTP password.

Mode 5 L2TP

Choose L2TP (Layer 2 Tunneling Protocol) if your ISP uses an L2TP connection. Your ISP will provide you with a username and password. The setup is shown in Figure 4-16.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of your Access Point. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type:

L2TP

Planet WGR-500-4PV - WAN Interface Setup - 1

Dynamic IP (DHCP)

Planet WGR-500-4PV - WAN Interface Setup - 2

Static IP

IP Address:172.1.1.2
Subnet Mask:255.255.255.0
Default Gateway:0.0.0.0
Server IP Address:172.1.1.1
User Name:
Password:

Figure 4-16: WAN Interface Setup – L2TP Setup

Object Description
IP AddressEnter the IP address.
Subnet MaskEnter the subnet Mask.
Server IP AddressEnter the L2TP Server IP address provided by your ISP.
User NameEnter your L2TP username.
PasswordEnter your L2TP password.

4.2.3 Status

This page displays system information of Industrial wall-mount Gigabit router as shown in Figure 4-17.

System
Uptime0day:0h:1m:3s
Firmware Versionv1.3411b181012
Build TimeFri Oct 12 19:21:13 CST 2018
TCP/IP Configuration
Attain IP ProtocolFixed IP
IP Address192.168.1.1
Subnet Mask255.255.255.0
Default Gateway192.168.1.1
DHCP ServerEnabled
MAC Addressa8:f7:e0:81:96:c1
WAN Configuration
Attain IP ProtocolFixed IP Disconnected
IP Address0.0.0.0
Subnet Mask0.0.0.0
Default Gateway0.0.0.0
MAC Addressa8:f7:e0:81:96:c9
LAN IPv6 Configuration
Global Address
LL Addressfe800000000000000aaf7e0fffe8196c1/64
Default Gatewayfe800000000000000aaf7e0fffe8196c1/64
MAC Addressa8:f7:e0:81:96:c1
WAN IPv6 Configuration
Link TypeIP link
Connection TypeDHCPv6
Global Address
LL Addressfe80000000000000aaf7e0fffe8196c9/64
Default Gateway
DNS server00000000000000000000000000000
MAC Addressa8:f7:e0:81:96:c9

Figure 4-17: System Information

4.2.4 Stastics

This page displays the number of packet that pass through the router on the WAN and LAN. The statistics are shown in Figure 4-18.

Statistics

This page shows the packet counters for transmission and reception regarding to Ethernet networks.

Ethernet LANSent Packets181650
Received Packets87393
Ethernet WANSent Packets0
Received Packets0

Figure 4-18: Statistics

ObjectDescription
RefreshPress this button to refresh the current Web page.

4.2.5 Operation Mode

The industrial wall-mount Gigabit router supports two modes for your application, select the Router mode to act as a Gateway which provides the firewall function to protect your private network. To select the Switch mode, industrial wall-mount Gigabit router will act as a pure 5-Port Ethernet Switch. The setup is shown in Figure 4-19 and default mode is Router mode.

Operation Mode

You can setup different modes to LAN interface for NAT and bridging function.

Router:

In this mode, the device is supposed to connect to internet via xDSL/Cable/xPON/Fiber Modem. The NAT is enabled and PCs in LAN ports share the same IP to ISP through WAN port. The connection type can be setup in WAN page by using PPPOE, DHCP client, PPTP client, L2TP client or static IP.

Switch:

In this mode, all Ethernet ports are bridged together and NAT function is disabled. All the WAN related function and firewall are not supported.

Save

Save & Apply

Reset

Figure 4-19: Operation Mode

Object Description
RouterIn this mode, the device is supposed to connect to internet via xDSL/Cable/xPON/Fiber modem. The NAT is enabled and PCs in LAN ports share the same IP with ISP through WAN port. The connection type can be set up in WAN page by using PPPOE, DHCP client, PPTP client , L2TP client or static IP.
SwitchIn this mode, all Ethernet ports are bridged together and NAT function is disabled. All the WAN related function and firewall are not supported.
SavePress this button to save changes.
Save & ApplyPress this button to save and apply changes.
ResetPress this button to undo any changes made locally and revert to previously saved values.

Planet WGR-500-4PV - Switch: - 1

Note

For the WGR-500-4P model, if you want to set a different mode between router and switch, it can only be configured by DIP switch, instead of web GUI, on the bottom case shown in the table below.

■ The Function Menu of Router Mode

SystemNetworkSecurityPoEMaintenance
DashboardWAN SetupQoSPoE ConfigurationConnection Test
WizardLAN SetupDoSPoE StatusSave/Restore Configuration
StatusVLANPort FilteringPoE ScheduleFirmware
StatisticsRouteIP FilteringPD Alive CheckReboot
Operation ModeDDNSMAC Filtering
Date and TimeIPv6 WAN SettingURL Filtering
User ConfigurationIPv6 LAN SettingDMZ
SNMPRadvdPort Forwarding
LCDTunnel (6 over 4)
Log

■ The Function Menu of Switch Mode

SystemNetworkPoEMaintenance
DashboardLAN SetupPoE ConfigurationConnection Test
WizardVLANPoE StatusSave/Restore Configuration
StatusIPv6 LAN SettingPoE ScheduleFirmware
StatisticsPD Alive CheckReboot
Operation Mode
Date and Time
User Configuration
SNMP
LCD
Log

4.2.6 Date and Time

This section assists you in setting the system time of industrial wall-mount Gigabit router. You can either select to set the time and date manually or automatically obtain the GMT time from Internet as shown in Figure 4-20.

Date and Time You can maintain the system time by synchronizing with a public time server over the Internet. Current Time : Yr 2018 Mon 11 Day 6 Hr 17 Mn 46 Sec 18 Copy Computer Time Time Zone Select : (GMT+08:00)Taipei Automatically Adjust Daylight Saving Enable NTP client update NTP server : 131.188.3.220 - Europe (Manual IP Setting) Save Save & Apply Reset Refresh

Figure 4-20: Date and Time

Object Description
Time Zone SelectInput current time manually.
Time Zone SelectSelect the time zone of the country you are currently in. The router will set its time based on your selection.
Enable NTP Client UpdateCheck to enable NTP update. Once this function is enabled, router will automatically update current time from NTP server.
NTP ServerUser may select NTP sever or input address of NTP server manually.
SavePress this button to save changes.
Save & ApplyPress this button to save and apply changes.
ResetPress this button to undo any changes made locally and revert to previously saved values.
RefreshPress this button to refresh the page

4.2.7 User Configuration

To ensure the industrial wall-mount Gigabit router's security is secure, you will be asked for your password when you access the industrial wall-mount Gigabit router's Web-based utility. The default user name and password are "admin". This page will allow you to modify the user name and passwords as shown in Figure 4-21.

Password Setup This page is used to set the account to access the web server. Empty user name and password will disable the protection. User Name: admin New Password: Confirmed Password: Save Save & Apply Reset

Figure 4-21: User Configuration

Object Description
User Name Enter user name.
New PasswordInput password for this user.
Confirmed PasswordConfirm password again.
SavePress this button to save changes.
Save & ApplyPress this button to save and apply changes.
ResetPress this button to undo any changes made locally and revert to previously saved values.

4.2.8 SNMP

This section provides SNMP setting of industrial wall-mount Gigabit router as shown in Figure 4-22.

SNMP Setting SNMP is a application for network management Enable SNMP Name : WGR-500-4PV Location : Contact : sales@planet.com.tw Read/Write private Community : Read-Only public Community : Save Save & Apply Reset

Figure 4-22: SNMP

Object Description
Enable SNMPDisable or enable the SNMP function.
NameAllows to enter characters for Name of industrial wall-mount Gigabit router.
LocationAllows to enter characters for Location of industrial wall-mount Gigabit router.
ContactAllows to enter characters for contact of industrial wall-mount Gigabit router.
Read/Write CommunityAllows to enter characters for SNMP Read/Write Community of industrial wall-mount Gigabit router.
Read-Only CommunityAllow to enter characters for SNMP Read-Only Community of industrial wall-mount Gigabit router.
SavePress this button to save changes.
Save & ApplyPress this button to save and apply changes.
ResetPress this button to undo any changes made locally and revert to previously saved values.

4.2.9 LCD

This section offers many options for you to manage LCD control panel as shown in Figure 4-23.

LCD Status This page shows the current status and some basic settings of the LCD. LCD Enabled ▼ Touch Screen Enabled ▼ Backlight Timeout Enabled ▼ Backlight Timeout Time 300 Sec Read Only Mode Disabled ▼ Default Screen Main Menu ▼ Time Interval 10 Sec Color Scheme Dark Light Pin Number 1234 Save Save & Apply Reset

Figure 4-23: LCD

Object Description
LCDAllows user to enable or disable LCD panel.
Touch ScreenAllows user to enable or disable touch screen feature.
Backlight TimeoutAllows user to enable or disable panel backlight timeout time feature.
Backlight Timeout TimeAll user to setup backlight timeout duration. Default setting is 300 seconds.
Read Only ModeAllows user to enable or disable "read only" mode feature to prevent someone from changing or reading information from LCD panel.
Default ScreenAllows user to choose what screen will be displayed on the LCD when system booting is done. Please note that user needs to save configuration and new screen will be displayed next time when system reboots. Default setting can be done from the drop-down main menu.
Time IntervalAllows user to input time interval for page refresh. Please note that shorter time interval will cause high CPU load, so we suggest using default setting which is 10 seconds.
Color SchemeAllows user to replace LCD background color. To use this feature, user has to save configuration and reboot system. Default setting is Dark.
Pin NumberIt is password. For security reason, when user changes configuration from LCD, user has to input password then configuration will be saved and executed. Default setting is 1234.
SavePress this button to save changes.
Save & ApplyPress this button to save and apply changes.
ResetPress this button to undo any changes made locally and revert to previously saved values.

4.2.10 Log

This section will help you to configure the settings of system log as shown in Figure 4-24. You can check the box of the items you want to record it in the log.

System Log This page can be used to set remote log server and show the system log. Enable Log system all DoS Enable Remote Log Log Server IP Address: Apply Changes Refresh Clear

Figure 4-24: Log

Object Description
Enable LogCheck to enable log function.
System all/DoSSelect which log you want to check. Related information will be shown below.
Enable Remote LogCheck to enable remote log functionality.
Log Server IP AddressEnter Log Server IP Address for remote log.
Apply ChangesPress this button to save and apply changes.
RefreshPress this button to refresh the current Web page.
ClearPress this button to clear log information.

4.3 Network

The Network function provides WAN, LAN and network configuration of industrial wall-mount Gigabit router as shown in Figure 4-25.

WAN Setup LAN Setup VLAN Route DDNS IPv6 WAN Setting IPv6 LAN Setting Radvd Tunnel (6 over 4)

Figure 4-25: Network Menu

Object Description
WAN SetupAllows to set WAN interface.
LAN SetupAllows to set LAN interface.
VLANAllows to set VLAN interface.
RouteAllows to set Route interface.
DDNSAllows to set DDNS and PLANET DDNS
IPv6 WAN SettingAllows to set IPv6 WAN interface.
IPv6 LAN SettingAllows to set IPv6 LAN interface.
RadvdAllows to set RADVD
Tunnel (6 over 4)Allows to set Tunnel (6 over 4)

4.3.1 WAN Setup

This page is used to configure the parameters for Internet network which connects to the WAN port of industrial wall-mount Gigabit router as shown in Figure 4-26. Here you may change the access method to static IP, DHCP, PPPoE, PPTP or L2TP by clicking the item value of WAN Access type.

WAN Interface Setup

This page is used to configure the parameters for Internet network which connects to the WAN port click the item value of WAN Access type.

WAN Access Type:

Static IP ▼

IP Address:

172.1.1.1

Subnet Mask:

255.255.255.0

Default Gateway:

0.0.0.0

MTU Size:

1500

DNS 1:

8.8.8.8

DNS 2:

Planet WGR-500-4PV - WAN Interface Setup - 1

DNS 3:

Clone MAC Address:

000000000000

Clone MAC

Restore Default MAC

Enable uPNP

Enable IGMP Proxy

Enable Ping Access on WAN

Enable Web Server Access on WAN

Web Accessed port: 80

√ Enable IPsec pass through on VPN connection

√ Enable PPTP pass through on VPN connection

√ Enable L2TP pass through on VPN connection

Figure 4-26: WAN Setup

ObjectDescription
WAN Access TypePlease select the corresponding WAN Access Type for the Internet, and fill the correct parameters from your local ISP in the fields which appear below.
Static IPSelect Static IP Address if all the Internet ports’ IP information is provided to you by your ISP (Internet Service Provider). You will need to enter the IP address, subnet mask, gateway address, and DNS address provided to you by your ISP. Each IP address entered in the fields must be in the appropriate IP form, which are four octets separated by a dot (x.x.x.x). The Router will not accept the IP address if it is not in this format.IP AddressEnter the IP address assigned by your ISP.Subnet MaskEnter the Subnet Mask assigned by your ISP.Default GatewayEnter the Gateway assigned by your ISP.DNSThe DNS server information will be supplied by your ISP.
DHCPClientSelect DHCP Client to obtain IP Address information automatically from your ISP.
PPPoEChoose PPPoE (Point to Point Protocol over Ethernet) if your ISP uses a PPPoE connection. Your ISP will provide you with a username and password. This option is typically used for DSL services.User NameEnter your PPPoE user name.PasswordEnter your PPPoE password.
PPTPChoose PPTP (Point-to-Point-Tunneling Protocol) if your ISP uses a PPTP connection. Your ISP will provide you with IP information and PPTP Server IP Address; of course, it also includes a username and password. This mode is typically used for DSL services.IP AddressEnter the IP address.Subnet MaskEnter the Subnet Mask.Server IP AddressEnter the PPTP Server IP address provided by your ISP.User NameEnter your PPTP user name.PasswordEnter your PPTP password.
L2TPChoose L2TP (Layer 2 Tunneling Protocol) if your ISP uses a L2TP connection. Your ISP will provide you with a username and password.IP AddressEnter the IP address.Subnet MaskEnter the Subnet Mask.Server IP AddressEnter the L2TP Server IP address provided by your ISP.User NameEnter your L2TP user name.PasswordEnter your L2TP password.
Host NameThis option specifies the Host Name of the industrial wall-mount Gigabit router.
MTU SizeThe normal MTU (Maximum Transmission Unit) value for most Ethernet networks is 1492 Bytes. It is not recommended that you change the default MTU Size unless required by your ISP.
Attain DNS AutomaticallySelect “Attain DNS Automatically”, the DNS servers will be assigned dynamically from your ISP.
Set DNS ManuallyIf your ISP gives you one or two DNS addresses, select Set DNS Manually and enter the primary and secondary addresses into the correct fields.
Enable uPnPCheck the box to enable the uPnP function.
Enable IGMP ProxyCheck the box to enable the IGMP Proxy function.
Enable Ping Access on WANCheck the box to enable Ping access from the Internet Network.
Enable Web Server Access on WANCheck the box to enable the web server access of the Industrial wall-mount Gigabit router from the Internet network.
Enable IPSec pass through on VPN connectionCheck the box to enable IPSec passthrough function on VPN connection.
Enable PPTP passthrough on VPN connectionCheck the box to enable PPTP passthrough function on VPN connection.
Enable L2TP passthrough on VPN connectionCheck the box to enable L2TP passthrough function on VPN connection.
Enable IPv6 passthrough on VPN connectionCheck the box to enable IPv6 passthrough function on VPN connection.

Planet WGR-500-4PV - WAN Interface Setup - 2

If you get Address not found error when you access a Web site, it is likely that your DNS servers are set up improperly. You should contact your ISP to get DNS server addresses.

Planet WGR-500-4PV - WAN Interface Setup - 3

Note

WAN IP, whether obtained automatically or specified manually, should NOT be on the same IP net segment as the LAN IP; otherwise, the router will not work properly. In case of emergency, press the hardware-based "Reset" button.

4.3.2 LAN Setup

This page is used to configure the parameters for local area network which connects to the LAN port of your industrial wall-mount Gigabit router as shown in Figure 4-27. Here you may change the setting for IP address, subnet mask, DHCP, etc...

LAN Interface Setup

This page is used to configure the parameters for local area network which connmask, DHCP, etc..

IP Address: 192.168.1.1 Subnet Mask: 255.255.255.0 Default Gateway: 192.168.1.254 DHCP: Server ▼ DHCP Client Range: 192.168.1.100 - 192.168.1.200 Show Client DHCP Lease Time: 480 (1 ~ 10080 minutes) Static DHCP: Set Static DHCP Domain Name: Planet 802.1d Spanning Tree: Disabled ▼ Clone MAC Address: 000000000000

Figure 4-27: LAN Setup

ObjectDescription
IP AddressThe LAN IP address of the Industrial wall-mount Gigabit router and default is 192.168.1.1. You can change it according to your request.
Subnet MaskDefault is 255.255.255.0. You can change it according to your request.
Default GatewayDefault is 192.168.1.254. You can change it according to your request.
DHCPYou can select one of Disable, Client, and Server. Default is Server, that the Industrial wall-mount Gigabit router can assign IP addresses to the computers automatically.
DHCP Client RangeFor the Server mode, you must enter the DHCP client IP address range in the field. And you can click the “Show Client” button to show the Active DHCP Client Table.
Domain Name Default is Planet.
802.1d Spanning TreeYou can enable or disable the spanning tree function.
Clone MAC AddressYou can input a MAC address here for using clone function.

Planet WGR-500-4PV - LAN Interface Setup - 2

Note

If you change the device's LAN IP address, you must enter the new one in your browser to get back to the web-based configuration utility. And LAN PCs' gateway must be set to this new IP for successful Internet connection.

4.3.3 VLAN

VLAN (Virtual Local Area Network) allows a physical network to be partitioned into multiple logical networks. Devices on a logical network belong to one group. A device can belong to more than one group. With VLAN, a device cannot directly talk to or hear from devices that are not in the same group. Please refer to the following sections for the details as shown in Figure 4-28.

802.1Q VLAN Entries in below table are used to config vlan settings. VLANs are created to provide the segmentation services traditionally provided by routers. VLANs address issues such as scalability, security, and network management. Enable 802.1Q VLAN VLAN ID(1-4095): 1 Forwarding Rule: NAT ▼ Hardware NAT: Port Member Tagged port1 □ □ port2 □ □ port3 □ □ port4 □ □ port5 (WAN) □ □ Save Save & Apply Reset Current VLAN Table: VLAN ID Forwarding Rule Tagged Ports Untagged Ports Select Delete Selected Delete All Reset Change PVID Setting

Figure 4-28: VLAN Setup

ObjectDescription
Enable 802.1Q VLANCheck this box to enable 802.1Q VLAN function.
VLAN IDSet VLAN ID (1-4095)
Forwarding RuleSelect Bridge or NAT mode
Hardware NATCheck this box to enable Hardware NAT function.
MemberAdd VLAN without tag to packet
TaggedAdd VLAN tag to packet
Change PVID settingCheck this box to enable change PVID (default vlan id)

4.3.4 Route

There are two route types that are Dynamic Route and Static Route. Please refer to the following sections for the details as shown in Figure 4-29.

Routing Setup This page is used to setup static route protocol. Enable Dynamic Route NAT: Enabled Disabled RIP Send: Disabled RIP 1 RIP 2 RIP Recv: Disabled RIP 1 RIP 2 RIPng: Disabled Enabled Apply Changes Reset Enable Static Route IP Address: Subnet Mask: Gateway: Metric: Interface: LAN Save Save & Apply Reset Show Route Table Static Route Table: Destination IP Address Netmask Gateway Metric Interface Select

Figure 4-29: Routing setup

■ Dynamic routing

Dynamic routing is a networking technique that provides optimal data routing. Unlike static routing, dynamic routing enables routers to select paths according to real-time logical network layout changes. RIPng exchanges routing information used to compute routes and is intended for IP version 6 (IPv6)-based networks while RIPv1 and RIPv2 is intended for IP version 4 (IPv4)-based networks.

Object Description
Enable Dynamic RouteClick this box to enable Dynamic Route.
NATEnable or Disable NAT function
RIP SendDisable:do not send any RIP packet outRIP1: Send RIP1 packet outRIP2. Send RIP2 packet out
RIP RecvDisable : do not receive any RIP packetRIP1: Only receive RIP1 packetRIP2: Only receive RIP2 packet
RIPngEnable or Disable RIPng function

■ Static routing

Static routing is a special type of routing that can be applied in a network to reduce the problem of routing selection and data flow overload caused by routing selection so as to improve the packets forwarding speed. You can set the destination IP address, subnet mask, and gateway to specify a routing rule. The destination IP address and subnet mask determine a destination network or host to which the router sends packets through the gateway.

Object Description
Enable Static RouteClick this box to enable Static Route.
IP AddressThe network or host IP address desired to access.
Subnet MaskThe subnet mask of destination IP.
GatewayThe gateway is the router or host's IP address to which packet was sent. It must be the same network segment with the WAN or LAN port.
MetricThe route metric is a value from 1 to 16 that indicates the cost of using this route.
InterfaceSelect the interface that the IP packet must use to transmit out of the router when this route is used.
Show Routing TablePress the button to show all the routing tables of the system.
Static Routing tableIt only shows the static routing table and you can delete one or all.

4.3.5 DDNS

The industrial wall-mount Gigabit router offers the DDNS (Dynamic Domain Name System) feature, which allows the hosting of a website, FTP server, or e-mail server with a fixed domain name (named by yourself) and a dynamic IP address, and then your friends can connect to your server by entering your domain name no matter what your IP address is. Before using this feature, you need to sign up for DDNS service providers such as PLANET DDNS or www.dyndns.org. The Dynamic DNS client service provider will give you a password or key.

Planet DDNS

PLANET DDNS website provides a free DDNS (Dynamic Domain Name Server) service for PLANET devices. Whether the IP address used on your PLANET device supporting DDNS service is fixed or dynamic, you can easily connect the devices anywhere on the Internet with a meaningful or easy-remembered name you gave. PLANET DDNS provide two types of DDNS services. One is Dynamic DDNS and the other is Easy DDNS as shown in Figure 4-30.

PLANET Dynamic DDNS

For example, you've just installed a PLANET IP camera with dynamic IP like 210.66.155.93 in the network. You can name this device as "Mycam1" and get the URL link as Mycam1.planetddns.com. Thus, you don't need to memorize the exact IP address but just the URL link: Mycam1.planetddns.com.

PLANET Easy DDNS

PLANET Easy DDNS is an easy way to help user to get your Domain Name with just one click. You can just login to the Web Management Interface of your devices, say, your IP Camera, check the DDNS menu and just enable it. Once you enabled the Easy DDNS, your PLANET Network Device will use the format PLxxxxxx where xxxxxx is the last 6 characters of your MAC address that can be found on the Web page or bottom label of the device. (For example: A8-F7-E0-81-96-C9, it will be converted into pt8196c9.planetddns.com)

DDNS Mode PLANET DDNS ○ Dynamic DDNS PLANET DDNS Setting DDNS Option: Disable Easy Domain Name: pt8196c9.planetddns.com Account: Password: DDNS: .planetddns.com Comment: Status: unknown status apply Reset

Figure 4-30: PLANET DDNS

ObjectDescription
DDNS OptionDisable: do not activate PLANET DDNS functionEnable Easy DDNS: activate Easy DDNS serviceEnable Dynamic DDNS: activate Easy Dynamic DDNS service
AccountThe User Name for PLANET DDNS account.
PasswordThe Password for PLANET DDNS account.
DDNSThe DDNS name of PLANET device
CommentAdd some comment for this item.
StatusConnection staus for PLANET DDNS

■ Dynamic DNS

The industrial wall-mount Gigabit router supports DynDNS and TZO DDNS service providers for Dynamic DNS as shown in Figure 4-31.

Dynamic DNS Setting Dynamic DNS is a service, that provides you with a valid, unchanging, internet domain name (an URL) Enable DDNS Service Provider : DynDNS ▼ Domain Name : host.dyndns.org User Name/Email: Password/Key: Note: For TZO, you can have a 30 days free trial here or manage your TZO account in control panel For DynDNS, you can create your DynDNS account here Save Save & Apply Reset

Figure 4-31: Dynamic DNS

Object Description
Enable DDNSCheck the box to enable the Dynamic DNS function.
Service ProviderSelect the DDNS service provider from the drop-down menu, such as DynDNS or TZO.
Domain NameEnter the domain name you have registered from the DDNS service provider.
User Name/EmailEnter the user name or email you have registered from the DDNS service provider.
Password/KeyEnter the password you have registered from the DDNS service provider.

4.3.6 IPv6 WAN Setting

This page is used to configure parameter for IPv6 internet network which connects to WAN port of your industrial wall-mount Gigabit router as shown in Figure 4-32. It allows you to enable IPv6 function and set up the parameters of the router's WAN. In this setting you may change WAN origin type and WAN Link type.

IPv6 WAN Interface Setup This page is used to configure the parameters for Internet network PPPoE, Bridge by click the item value of WAN Access type. Enable IPv6 WAN Origin Type : AUTO ▼ WAN Link Type: Ethernet ▼

Figure 4-32: IPv6 WAN setup

ObjectDescription
Enable IPv6Click this box to enable IPv6 configuration.
Origin TypeSelect either Auto or Static. In Auto you could choose the DHCP type for Stateless Address Auto or Stateful Address Auto Configuration. In Static you need to fill in the Static IP address table.
WAN Link TypeSelect IPv6 WAN type either by using Ethernet or PPPoE.

4.3.7 IPv6 LAN Setting

IPv6 LAN Setting will be only available if you enable IPv6 WAN. Make sure IPv6 WAN is enabled before you could configure the IPv6 LAN. The setup is shown in Figure 4-33.

IPv6 LAN Interface Setup Configuring LAN setting IP Address: 0000 : 0000 : 0000 : 0000 : 0000 : 0000 : 0000 : 0000 : 0 Prefix Length Configuring DHCPv6 Server Enable DNS Addr: 2001:db8::35 Interface Name: br0 Addrs Pool: From: 2001:db8:1:2::1000 To: 2001:db8:1:2::2000

Figure 4-33: IPv6 LAN Setup

ObjectDescription
Enable IPv6 LANClick this box to enable IPv6 LAN configuration.
DNS AddressEnter IPv6 DNS Address assigned by your ISP.
Interface NameEnter assigned Interface name of the IPv6 LAN port.
FromEnter assigned starting Address pool.
ToEnter assigned ending Address pool.

4.3.8 RADVD

The RADVD configuration is responsible for defining interface setting, prefixes, routers and RDNSS announcements. The setup is shown in Figure 4-34 to 4-35.

Radvd Configuring Router Advertisement Enable radvdinterfacename br0 MaxRtrAdvInterval 600 MinRtrAdvInterval 198 MinDelayBetweenRAs 3 AdvManagedFlag AdvOtherConfigFlag AdvLinkMTU 1500 AdvReachableTime 0 AdvRetransTimer 0 AdvCurHopLimit 64 AdvDefaultLifetime 1800 AdvDefaultPreference medium AdvSourceLLAddress UnicastOnly

Figure 4-34: IPv6 RADVD

ObjectDescription
EnableClick this box to enable RADVD configuration.
RadvdinterfacenameAssigned interface name of RADVD.
MaxRtrAdvIntervalEnter the maximum time allowed between sending unsolicited multicast router advertisements from the interface in seconds. By default the value is 600.
MinRtrAdvIntervalEnter the minimum time allowed between sending unsolicited multicast router advertisements from the interface in seconds. By default the value is 198.
MinDelayBetweenRAsEnter the minimum time allowed between sending multicast router advertisements from the interface in seconds By default the value is 3
AdvManagedFlagTo enables and disable the additional stateful administered auto-configuration protocol.
AdvOtherConfigFlagTo enable and disable the auto-configuration of additional, non address information.
AdvLinkMTUEnter value of Advertises the given link MTU in the RA if specified. 0 value disables MTU advertisements.
AdvReachable TimeEnter value of Advertises assumed reach-ability time in milliseconds of neighbors in the RA if specified. 0 value disables reach-ability advertisements.
AdvRetransTimeEnter value of Advertises wait time in milliseconds between Neighbor Solicitation messages in the RA if specified. 0 value is disables re-transmit advertisements
AdvCurHopLimitEnter value of Advertises the default Hop Count value for outgoing unicast packets in the RA. 0 value is disables hopcount advertisements. By default value is set to 64.
AdvDefaultLifetimeEnter value of Advertises the lifetime of the default router in seconds. 0 value is indicates that the node is no default router. By default it is set to 1800.
AdvDefaultPreferenceSelect the advertises default router preference. By default it is set to medium.
AdvSourceLLAddressTo include the link-layer address of the outgoing interface in the RA.
UnicastOnlyTo enable the indication that the underlying link is not broadcast capable, prevents unsolicited advertisements from being sent.

prefix1 Enabled ✓ prefix 0120 : 0000 : 0000 : 0000 : 0000 : 0000 : 0000 : 0000 / 64 AdvOnLinkFlag ✓ AdvAutonomousFlag ✓ AdvValidLifetime 9250560 AdvPreferredLifetime 2151287040 AdvRouterAddr □ if6to4 eth1 prefix2 Enabled ✓ prefix 0220 : 0000 : 0000 : 0000 : 0000 : 0000 : 0000 / 64 AdvOnLinkFlag ✓ AdvAutonomousFlag ✓ AdvValidLifetime 9250560 AdvPreferredLifetime 2151287040 AdvRouterAddr □ if6to4 eth1

Figure 4-35: IPv6 RADVD Prefix

ObjectDescription
Enable RADVD prefixClick this box to enable RADVD prefix.
Prefix Assigned the advertisedPv6 route prefix.
AdvOnLinkFlagTo enable indication that this prefix can be used for on-link determination.
AdvAutonomousFlagTo enable indication that this prefix can be used for autonomous address configuration.
AdvValidLifetimeEnter the advertising length of time in seconds that the prefix is valid for purpose of on-link determination.
AdvPreferredLifeTimeEnter the advertising length of time in seconds that addresses generated from the prefix via stateless address autoconfiguration remain preferred.The special value infinity means forever
AdvRouterAddrEnable indication of the address of interface that is sent instead of network prefix.
if6to4Specifies a logical interface name to derive a 6to4 prefix origin.

4.3.9 Tunnel (6 over 4)

6 to 4 is an IPv6 address assignment and automatic tunneling technology that is used to provide unicast IPv6 connectivity between IPv6 sites and hosts across the IPv4 Internet. The setup is shown in Figure 4-36.

Tunnel (6 over 4) Configuring Tunnel(6to4) Enable Save

Figure 4-36: IPv6 Tunnel (6 over 4)

ObjectDescription
Enable Tunnel (6 to 4)Click this box to enable Tunnel (6 to 4).

4.4 Security

The Security menu provides QoS, firewall and access filtering as shown in Figure 4-37. Please refer to the following sections for the details.

Qos Dos Port Filtering IP Filtering MAC Filtering URL Filtering DMZ Port Forwarding

Figure 4-37: Security menu

Object Description
QoSAllows to set QoS (Quality of Service).
DoSAllows to set DoS (Denial of Service).
Port FilteringAllows to set Port Filtering.
IP FilteringAllows to set IP Filtering.
MAC FilteringAllows to set MAC Filtering
URL FilteringAllow to set MAC Filtering.
DMZAllow to set DMZ.
Port ForwardingAllow to set Port Forwarding

4.4.1 QoS

The QoS (Quality of Service) helps improve your network gaming performance by prioritizing applications as shown in Figure 4-38. By default the bandwidth control is disabled and application priority is not classified automatically. In order to complete this settings, please follow the steps below.

QoS Entries in this table improve your online gaming experience by ensuring that your game traffic is prioritized over other network traffic, such as FTP or Web. Enable QoS Automatic Uplink Speed Manual Uplink Speed (Kbps): 512 Automatic Downlink Speed Manual Downlink Speed (Kbps): 512 QoS Rule Setting: Name: QoS Type: protocol: Local IP Address: Local Port: Remot IP Address: Remote Port: IPv6 Address: MAC Address: remote MAC Address: phyport: dscp: Layer 7: Mode: Mode: Uplink Bandwidth (Kbps): Downlink Bandwidth (Kbps): remark remark dscp: Comment:

Figure 4-38: QoS

ObjectDescription
Enable QoSCheck the box to enable the QoS function.
Automatic Uplink SpeedCheck the box to adjust the uplink speed automatically by the Industrial wall-mount Gigabit router. Or enter the uplink data rate manually in the field below.
Automatic Downlink SpeedCheck the box to adjust the downlink speed automatically by the Industrial wall-mount Gigabit router. Or enter the downlink data rate manually in the field below.
NameAdd a QoS rule name.
QoS TypeChoose type of QoS either by IPv4, MAC Address, IPv6, PHYPORT or DSCP.
ProtocolSelect type of protocol to use for QoS. It can be either TCP, UDP or both.
Select IPSelect connected client IP Address.
Local IP AddressEnter local IP Address range of client or device (if QoS type is IPv4).
Local PortEnter local port range of client or device (if QoS type is IPv4).
Remote IP AddressEnter remote IP Address range of client or device (if QoS type is IPv4).
Remote PortEnter remote port range of client or device (if QoS type is IPv4).
IPv6 AddressEnter IPv6 Address of client or device (if QoS type is IPv6).
MAC AddressEnter MAC Address of client or device (if QoS type is MAC).
PHYPORTEnter Physical Ethernet port of connected client or device (if QoS type is PHYPORT).
DSCPEnter DSCP number of client or device (if QoS type is DSCP).
ModeSelect QoS mode for “Guaranteed minimum bandwidth” or “Restricted maximum bandwidth”.
Uplink BandwidthEnter value of upload limitation value according to the QoS mode.
Downlink BandwidthEnter value of download limitation value according to the QoS mode.
remark dscpInsert a remark on DSCP configuration.
CommentInsert comment of the DSCP configuration as references.

4.4.2 DoS

A "Denial-of-Service" (DoS) attack is characterized by an explicit attempt by hackers to prevent legitimate users of a service from using that service. The industrial wall-mount Gigabit router can prevent specific DoS attacks as shown in Figure 4-39.

Denial of Service

A "denial-of-service" (DoS) attack is characterized by an explicit attempt by hackers

Enable DoS Prevention

Whole System Flood: SYN

Whole System Flood: FIN

Whole System Flood: UDP

Whole System Flood: ICMP

Per-Source IP Flood: SYN

Per-Source IP Flood: FIN

Per-Source IP Flood: UDP

Per-Source IP Flood: ICMP

TCP/UDP PortScan

ICMP Smurf

IP Land

IP Spoof

IP TearDrop

PingOfDeath

TCP Scan

TCP SynWithData

UDP Bomb

UDP EchoChargen

Select ALL Clear ALL

Enable Source IP Blocking

0 Packets/Second 0 Packets/Second 0 Packets/Second 0 Packets/Second 0 Packets/Second 0 Packets/Second 0 Packets/Second 0 Packets/Second 0 Packets/Second Low Sensitivity

Planet WGR-500-4PV - Enable DoS Prevention - 2
Figure 4-39: DoS

ObjectDescription
Enable DoS PreventionCheck to enable DoS function.User may set other related configurations about DoS below.
Whole System Flood SYNCheck the box to enable. If enabled, when the number of the current SYN packets is beyond the set value, the router will startup the blocking function immediately.
Whole System Flood FINCheck the box to enable. If enabled, when the number of the current FIN packets is beyond the set value, the router will startup the blocking function immediately.
Whole System Flood UDPCheck the box to enable. If enabled, when the number of the current UPD-FLOOD packets is beyond the set value, the router will startup the blocking function immediately.
Whole System Flood ICMPCheck the box to enable. If enabled, when the number of the current ICMP-FLOOD packets is beyond the set value, the router will startup the blocking function immediately.
Per-Source IP Flood SYNCheck the box to enable. When the IP Flood SYN Detection is enabled, the router has the ability to block malicious devices that are attempting to flood devices.
Per-Source IP Flood FINCheck the box to enable. When the IP Flood FIN Detection is enabled, the router has the ability to block malicious devices that are attempting to flood devices.
Per-Source IP Flood UDPCheck the box to enable. When the IP Flood UDP Detection is enabled, the router has the ability to block malicious devices that are attempting to flood devices.
Per-Source IP Flood ICMPCheck the box to enable. When the IP Flood IGMP Detection is enabled, the router has the ability to block malicious devices that are attempting to flood devices.
TCP/UDP PortScanCheck the box wil I block against hackers from probe to router system remotely and determine what TCP/UDP port are open.
ICMP SmurfCheck box to enable protection against ICMP Smurf attack.
IP LandCheck the box to enable the protection against LAND attack.
IP SpoofCheck box to enable protection against IP Spoofing attack on device within network.
IP TearDropCheck box to enable protection against Teardrop attack that targeting on TCP/IP fragmentation reassembly codes.
PingOfDeathCheck box to enable protection against Ping of Death attack that aims to disrupt a targeted machine by sending a packet larger that maximum allowable size causing the target machine to freeze or crash.
TCP ScanCheck the box to enable protection against TCP Scan. TCP Scan is technique use to identify listening TCP Port.
TCP SynWithDataCheck the box to block TCP Syn With Data evasion technique.
UDP BombCheck the box to enable protection against UDP Bomb or called as UDP Flood or packet storm.
UDP EchoChargenCheck the box to enable protection against CharGEN attack. CharGEN attack is carried out by sending small packets carrying a spoofed IP of the target to the internet enabled devices running CharGEN.
Select AllSelect to enable all the DoS protection method.
Enable Source IP BlockingEnter value of time duration for IP Blocking.

4.4.3 Port Filtering

Entries in this table are used to restrict certain types of data packets from your local network to Internet through the Gateway. Use of such filters can be helpful in securing or restricting your local network as shown in Figure 4-40

Port Filtering

Entries in this table are used to restrict certain types of data packets from your local network to Internet through the Gateway. Use of such filters can be helpful in securing or restricting your local network.

Enable Port Filtering Enable IPv4 Enable IPv6 Port Range: - Protocol: Both Comment:

Figure 4-40: Port Filtering

ObjectDescription
Enable Port FilteringCheck box to enable Port Filtering function.
Enable IPv4Check box to enable Port filtering method using IPv4.
Enable IPv6Check box to enable Port filtering method using IPv6.
Port RangeAdd ports you want to control.
ProtocolSelect the port number protocol type (TCP, UDP or both). If you are unsure, then leave it to the default both protocols.
CommentEnter the description for this setting.

4.4.4 IP Filtering

IP Filtering is used to block internet or network access to specific IP addresses on your local network as shown in Figure 4-41. The restricted user may still be able to log in to the network but will not be able to access the internet. To begin blocking access to an IP address, enable IP Filtering and enter the IP address of the user you wish to block.

IP Filtering

Entries in this table are used to restrict certain types of data packets from your local network to Internet through the Gateway. Use of such filters can be helpful in securing or restricting your local network.

Enable IP Filtering
Enable IPv4 Enable IPv6

Local IPv4 Address:

Local IPv6 Address:

Protocol: Both ▼

Comment:

Figure 4-41: IP Filtering

ObjectDescription
Enable IP FilteringCheck this box to enable IP Filter function
Enable IPv4Check this box to enable IP filtering method using IPv4.
Enable IPv6Check this box to enable IP filtering method using IPv6.
Local IP AddressAdd LAN IP address you want to control
ProtocolSelect the port number protocol type (TCP, UDP or both).If you are unsure, then leave it to the default both protocol
CommentEnter the description for this setting.

4.4.5 MAC Filtering

Entries in this table are used to restrict certain types of data packets from your local network to Internet through the Industrial wall-mount Gigabit router. Use of such filters can be helpful in securing or restricting your local network as shown in Figure 4-42.

MAC Filtering

Entries in this table are used to restrict certain types of data packets from your local network to Internet through the Gateway. Use of such filters can be helpful in securing or restricting your local network.

Planet WGR-500-4PV - MAC Filtering - 1

Enable MAC Filtering

MAC Address:

Comment:

Figure 4-42: MAC Filtering

ObjectDescription
Enable MAC FilteringCheck this box to enable MAC filtering.
MAC AddressAdd MAC address you want to control.
CommentEnter the description for this setting.

4.4.6 URL Filtering

URL filter is used to deny LAN users from accessing the internet as shown in Figure 4-43. Block those URLs which contain keywords listed below.

URL Filtering

URL filter is used to deny LAN users from accessing the internet. Block those URLs which contain keywords listed below.

Enable URL Filtering
deny url address(black list)
allow url address(white list)

URL Address:

Figure 4-43: URL Filtering

ObjectDescription
Enable URL FilteringCheck this box to enable URL Filter function.
deny url address (black list)deny access listed URL in the Current URL Filtering table and allow other URLs which are not in the list.
allow url address (white list)allow access listed URL in the Current URL Filtering table and deny other URLs which are not in the list.
URL AddressThe URL Address that you want to filter.

4.4.7 DMZ

A Demilitarized Zone is used to provide Internet services without sacrificing unauthorized access to its local private network as shown in Figure 4-44. Typically, the DMZ host contains devices accessible to Internet traffic, such as Web (HTTP) servers, FTP servers, SMTP (e-mail) servers and DNS servers.

DMZ

A Demilitarized Zone is used to provide Internet services without sacrificing unauthorized access to its local private network. Typically, the DMZ host contains devices accessible to Internet traffic, such as Web (HTTP) servers, FTP servers, SMTP (e-mail) servers and DNS servers.

Planet WGR-500-4PV - DMZ - 1

Enable DMZ

DMZ Host IP Address:

Figure 4-44: DMZ

ObjectDescription
Enable DMZCheck the box to enable DMZ function. If the DMZ Host Function is enabled, it means that you set up DMZ host at a particular computer to be exposed to the Internet so that some applications/software, especially Internet / online game can have two way connections.
DMZ Host IP AddressEnter the IP address of a particular host in your LAN which will receive all the packets originally going to the WAN port / Public IP address above.

4.4.8 Port Forwarding

Entries in this table allow you to automatically redirect common network services to a specific machine behind the NAT firewall as shown in Figure 4-45. These settings are only necessary if you wish to host some sort of server like a web server or mail server on the private local network behind your Router's NAT firewall.

Port Forwarding

Entries in this table allow you to automatically redirect common network services to a specific machine behind the NAT firewall. These settings are only necessary if you wish to host some sort of server like a web server or mail server on the private local network behind your Gateway's NAT firewall.

Enable Port Forwarding Local IP Address: Local Port Range: - Protocol: Both Remote IP Address: Remote Port Range: - Comment:

Figure 4-45: Port Forwarding

ObjectDescription
Enable Port ForwardingCheck the box to enable Port Forwarding function
Local IP AddressEnter Local IP address of specified host or server on the private local network.
ProtocolSelect the port number protocol type (TCP, UDP or both). If you are unsure, then leave it to the default both protocols.
Local Port RangeEnter local ports you want to control. For TCP and UDP Services, enter the beginning of the range of port numbers used by the service. If the service uses a single port number, enter it in both the start and finish fields.
Remote IP AddressEnter remote IP address of external IP Address. You could set to 0.0.0.0 for any IP address.
Remote Port RangeEnter remote ports you want to control. For TCP and UDP Services, enter the beginning of the range of port numbers used by the service. If the service uses a single port number, enter it in both the start and finish fields.
CommentEnter the description for this setting.

4.5 PoE

The PSU input power consumption is monitored by measuring voltage and current. The input power consumption is equal to the system's aggregated power consumption. The power management concept allows all ports to be configured, monitored and scheduled. The PoE menu provides PoE Configuration and other functions as shown in Figure 4-46.

PoE Configuration

PoE Status

PoE Schedule

PoE Alive Check

Figure 4-46: PoE Menu

Object Description
PoE ConfigurationAllows to centralize management PoE power for PDs.
PoE StatusDisplays the current PoE usage.
PoE ScheduleAllows to centralize management PoE power for providing schedule.
PD Alive CheckAllows to centralize management PoE power for checking PDs alive.

4.5.1 Power over Ethernet Powered Device

Planet WGR-500-4PV - Power over Ethernet Powered Device - 13~5 WattsVoice over IP phonesEnterprises can install PoE VoIP phone, ATA and otherEthernet/non-Ethernet end-devices in the central where UPS is installed for uninterruptible power system and power control system.
Planet WGR-500-4PV - Power over Ethernet Powered Device - 26~12 WattsWireless LAN Access PointsSuitable for museums, sightseeing places, airports, hotels, campuses, factories, warehouses, etc.
Planet WGR-500-4PV - Power over Ethernet Powered Device - 310~12 WattsIP SurveillanceGreat for enterprises, museums, campuses, hospitals, banks, etc.Power out lets are not required.
Planet WGR-500-4PV - Power over Ethernet Powered Device - 43~12 WattsPoE SplitterPoE Splitter splits the PoE 52V DC over the Ethernet cable into 5/12V DC power output. It frees the device deployment from restrictions due to power outlet locations, which eliminate the costs for additional AC wiring and reduces the installation time.
Planet WGR-500-4PV - Power over Ethernet Powered Device - 53~25 WattsHigh Power PoE SplitterHigh PoE Splitter splits the PoE 526V DC over the Ethernet cable into 24/12V DC power output. It frees the device deployment from restrictions due to power outlet locations, which eliminate the costs for additional AC wiring and reduces the installation time.
Planet WGR-500-4PV - Power over Ethernet Powered Device - 630 WattsHigh Power Speed DomeThis state-of-the-art design is considerable to fit in various network environments like traffic centers, shopping malls, railway stations, warehouses, airports, and production facilities for the most demanding outdoor surveillance applications. An extra power outlet is not required.

Planet WGR-500-4PV - Power over Ethernet Powered Device - 7

Since the WGR-500 Series per PoE port supports 48\~56V DC PoE power output, please check whether the powered device's (PD) acceptable DC power range is 48\~56V DC; otherwise, it will damage the PD.

4.5.2 System Configuration

In a power over Ethernet system, operating power is applied from a power source (PSU) over the LAN infrastructure to powered devices (PDs), which are connected to ports. Under some conditions, the total output power required by PDs can exceed the maximum available power provided by the PSU. In order to maintain the majority of ports active, power management is implemented.

The PSU input power consumption is monitored by measuring voltage and current. The input power consumption is equal to the system's aggregated power consumption. The power management concept allows all ports to be active and activates additional ports, as long as the aggregated power of the system is lower than the power level at which additional PDs cannot be connected. When this value is exceeded, ports will be deactivated, according to user-defined priorities. The power budget is managed according to the following user-definable parameters: maximum available power, ports priority, maximum allowable power per port.

Reserved Power Management

There are five modes for configuring how the ports/PDs may reserve power and when to shut down ports.

■ Classification mode

In this mode, each port automatically determines how much power to reserve according to the class the connected PD belongs to, and reserves the power accordingly. Four different port classes exist and one for 4, 7, 15.4 and 30.8 watts.

ClassUsageRange of maximum power used by the PDClass Description
0Default0.44 to 12.95 wattsClassification unimplement
1Optional0.44 to 3.84 wattsVery low power
2Optional3.84 to 6.49 wattsLow power
3Optional6.49 to 12.95 watts (or to 15.4 watts)Mid power
4Optional12.95 to 25.50 watts (or to 30.8 watts)High power

Planet WGR-500-4PV - ■ Classification mode - 1

  1. In this mode the Maximum Power fields have no effect.
  2. The PoE chip of PD69012 designed to that Class level 0 will be assigned to 15.4 watts in AF mode and 30.8 watts in AT mode under classification power limit mode. It is hardware limited.

4.5.3 PoE Configuration

This section provides PoE (Power over Ethernet) Configuration and PoE output status of industrial wall-mount Gigabit router as shown in Figure 4-47.

PoE Configuration

System PoE Admin ModeEnable ▼
Power Supply55 V
Power Limit ModeConsumption ▼
PoE Temperature49°C / 120°F

Power Allocation 0% 0 / 120 W

PortDescriptionPoE FunctionSchedulePower ModePriorityDevice ClassCurrent Used [mA]Powered Used [W]Power Limit[W]
All36
1EnableProfile1ATHigh--0036
2EnableProfile1ATHigh--0036
3EnableProfile1ATHigh--0036
4EnableProfile1ATHigh--0036
Total00

Apply Refresh Auto Refresh

Figure 4-47: PoE Configuration

Object Description
System PoE Admin ModeAllows user to disable / enable PoE function.
Power SupplyDisplays PoE power supply status.
Power Limit ModeAllows user to configure power limit mode, which can be chosen.Consumption: Based on the real device power consumption where PoE power is delivered as system default setting is in this mode.Allocation: Users allow to assign how much PoE power to each port and the system will reserve PoE power to PD.
PoE TemperatureDisplays the current PoE temperature of industrial wall-mount Gigabit router.
Power AllocationDisplay the current total power consumption status.
DescriptionThis function provides input per port description and the available letters is 30.NOTE: The total maximum letters are only 800. Some of special words will count as 5 per word, like ‘; “, \,< and >.
PoE FunctionAllows user to disable or enable per port PoE function, and also allows to choose schedule for enabling PoE Schedule function of each port.
ScheduleIndicates the scheduled profile mode. Possible profiles are:Profile1Profile2Profile3Profile4This function is available when choosing schedule on each port.
Power ModeAllows user to select AT/AF compatibility mode. The default value is AT mode.Indicates the power inline mode.
PriorityThe Priority represents PoE ports priority. There are three levels of power priority named Low, High and Critical.The priority is used in case the total power consumption is over the total power budget. In this case the port with the lowest priority will be turned off, and offer power for the port of higher priority.
Device ClassDisplay PoE class level.The IEEE 802.3af standard offers PoE class level from 1 to 3 and IEEE 802.3at standard offers the class from 1 to 4.
Current Used [mA]The Power Used shows how much current the PD currently is using.
Power Used [W]The Power Used shows how much power the PD currently is using.
Power Limit [W]It can limit the port PoE supply watts. Per port maximum value must be less than 36 watts. Total port values must be less than the Power Reservation value. Once power overload is detected, the port will automatically shut down and keep in detection mode until PD's power consumption is lower than the power limit value.
ApplyPress this button to take effect.
RefreshPress this button to refresh the current Web page.
Auto-RefreshCheck this box to refresh the page automatically.Automatic refresh occurs every 3 seconds.

Planet WGR-500-4PV - PoE Configuration - 1

The PoE budget is 120W. If the usage of power is over the PoE budget, the system will show warning message to notify user. To avoid damaging system, don't overuse the power budget.

4.5.4 PoE Status

This page allows user to see the usage of individual PoE Port as shown in Figure 4-48.

PoE Status
Planet WGR-500-4PV - PoE Status - 1

bar | Port Number | AF PoE (W) | AT PoE (W) | | :--- | :--- | :--- | | 01 | 2 | 0 | | 02 | 0 | 27 | | 03 | 0 | 1 | | 04 | 0 | 1 |

Figure 4-48: PoE Status

Object Description
Port NumberDisplays per port status.
WattDisplays per port PoE usage.
Indicates the AF PoE operation mode of that port.
Indicates the AT PoE operation mode of that port.
RefreshPress this button to refresh the current Web page.
Auto RefreshCheck this box to refresh the page automatically. Automatic refresh occurs every 3 seconds.

4.5.5 PoE Schedule

This page provides user to configure PoE schedule and scheduled power recycling. The "PoE schedule" helps you to enable or disable PoE power feeding for PoE ports during specified time intervals and it is a powerful function to help SMBs or enterprises save power and money. The PoE Schedule Profile Web Screens are shown in Figure 4-49.

PortDescriptionPoE FunctionSchedulePower ModePriorityDevice ClassCurrent Used [mA]Powered Used [W]Power Limit[W]
1Schedule ▼Profile1 ▼AF ▼High ▼03.78136
2Schedule ▼Profile2 ▼AT ▼High ▼025.51136
3Schedule ▼Profile3 ▼AT ▼High ▼--0036
4Schedule ▼Profile4 ▼AT ▼High ▼--0036
Total292

Figure 4-49: PoE Function

Object Description
PoE FunctionAllows user to disable or enable per port PoE function, and also allows to choose schedule for enabling PoE Schedule function of each port.
ScheduleIndicates the scheduled profile mode. Possible profiles are:Profile1/Profile2/Profile3/Profile4This function is available when choosing schedule on each port.

PoE Schedule user can configure a duration time for PoE port as default value does not provide power as shown in Figure 4-50.

PoE Schedule Profile Profile 1 Delete Week Day Start Hour Start Min End Hour End Min Reboot Enable Reboot Only Reboot Hour Reboot Min Delete Sun. 0 0 23 59 0 0 Add New Rule Apply Sta Fri Thu Wed Tue Mon Sun PoE Schedule PoE Reboot

Figure 4-50: PoE Schedule

Object Description
ProfileSet the schedule profile mode. Possible profiles are:Profile1Profile2Profile3Profile4
DeleteCheck to delete the entry.
Week DayAllows user to set week day for defining PoE function by enabling it on the day.Sun.: SundayMon.: MondayTue.: TuesdayWed.: WednesdayThu.: ThursdayFri.: FridaySat.: Saturday
Start HourAllows user to set what hour PoE function does by enabling it.
Start MinAllows user to set what minute PoE function does by enabling it.
End HourAllows user to set what hour PoE function does by disabling it.
End MinAllows user to set what minute PoE function does by disabling it.
Reboot EnableAllows user to enable or disable the whole PoE port reboot by PoE reboot schedule. Please note that if you want PoE schedule and PoE reboot schedule to work at the same time, please use this function, and don't useReboot Onlyfunction. This function offers administrator to reboot PoE device at an indicated time if administrator has this kind of requirement.
Reboot OnlyAllows user to reboot PoE function by PoE reboot schedule. Please note that if administrator enables this function, PoE schedule will not set time to profile. This function is just for PoE port to reset at an indicated time.
Reboot HourAllows user to set what hour PoE reboots. This function is only for PoE reboot schedule.

4.5.6 PoE Alive Check Configuration

The WGR-500 Series can be configured to monitor connected PD's status in real-time via ping action. Once the PD stops working and without response, the WGR-500 Series is going to restart PoE port port power, and bring the PD back to work. It will greatly enhance the reliability and reduces administrator management burden. The PoE Alive Check setup is shown in Figure 4-51

PoE Alive Check

PortModeRemote PD IP AddressInterval Time (10~300s)Retry Count (1~5)ActionReboot Time (30~180s)
All192.168.0.1016060
1Disable ▼192.168.0.101602 ▼None ▼60
2Disable ▼192.168.0.101602 ▼None ▼60
3Disable ▼192.168.0.101602 ▼None ▼60
4Disable ▼192.168.0.101602 ▼None ▼60

Figure 4-51: PD alive check

Object Description
ModeAllows user to enable or disable PD Alive Check function. The default is disabled.
Remote PDIP AddressAllows user to set PoE device IP address for system making ping to the PoE device.Please note that the PD's IP address must be set to the same network segment as the industrial wall-mount Gigabit router. The default is 60s.
Interval Time(10~300s)Allows user to set how long system should issue a ping request to PD for detecting whether PD is alive or dead. Interval time range is from 10 seconds to 300 seconds.
Retry Count(1~5)Allow user to set how many times system wants to retry ping to PD. For example, if we set count 2, the meaning is that if system retries ping to the PD and the PD doesn't response continuously, the PoE port will be reset. The default is 2.
ActionAllow users to set which action will be applied if the PD is without any response. The industrial wall-mount Gigabit router offers 4 actions as follows:None:no action. The default is None.PD Reboot:system will reset the PoE port that is connected to the PD.PD Reboot & Alarm:system will reset the PoE port and issue an alarm message via syslog.Alarm:system will issue an alarm message via syslog.
Reboot Time(30~180s)Allows user to set the PoE device rebooting time.The PD alive check is not a defining standard, so the PoE device on the market doesn't report reboots done information to the system. User has to make sure how long the PD will be finished to boot, and set the time value to this column. If you cannot make sure the precise booting time, we suggest you set it longer. The default is 60s.

4.6 Maintenance

The Maintenance menu provides the following features for managing the system as Figure 4-52 is shown below:

Planet WGR-500-4PV - Maintenance - 1

flowchart
graph TD
    A["Connection Test"] --> B["Save/Restore Configuration"]
    B --> C["Firmware Upgrade"]
    C --> D["Reboot"]

Figure 4-52: Maintenance Menu

ObjectDescription
Connection TestAllows you to issue ICMP PING packets to troubleshoot IP.
Save/Restore ConfigurationBackup and restore setting file via USB HDD or PC.
Firmware Firmware upgrade.
Reboot Reboot the system

4.6.1 Connection Test

The page is allows you to issue ICMP PING packets to troubleshoot IP connectivity issues. After you press "Ping", 5 ICMP packets are transmitted, and the sequence number and roundtrip time are displayed upon reception of a reply. The Page refreshes automatically until responses to all packets are received, or until a timeout occurs. The ICMP Ping is shown in Figure 4-53.

Ping This page can be used to run ping command. IP Address : Counts : 5 Ping Refresh

Figure 4-53: Ping

Object Description
IP AddressThe destination IP Address.
Counts The time of ping.

Planet WGR-500-4PV - Connection Test - 2

Be sure the target IP address is within the same network subnet of the industrial wall-mount Gigabit router, or you have to set up the correct gateway IP address.

4.6.2 Save/Restore Configuration

This page shows the status of the configuration. You may save the setting file to either USB HDD or PC and load the setting file from USB HDD or PC as Figure 4-54 is shown below:

Save/Reload Settings

This page allows you save current settings to a file or reload the settings from the file which was saved previously. Besides, you could reset the current configuration to factory default

Save Settings to File: Save Load Settings from File: Choose File No file chosen Upload Reset Settings to Default: Reset This allows you save and restore the config from usb storage device. Please no USB HDD: Not Detected Backup Settings to USB HDD: Save Load Settings from USB HDD: Configuration disabled Upload *Please format the HDD to FAT32 on a Windows PC before using it for backup* Refresh

Figure 4-54: Save/Restore Configuration

■ Save Setting to PC

Object Description
Save Settings to FilePress the Save button to save setting file to PC.
Load Settings from FilePress the Choose File button to select the setting file, and then press the Upload button to upload setting file from PC.
Reset Setting to DefaultPress the Reset button to reset to factory default.

■ Save Setting of USB HDD

Object Description
USB HDD The status of USB HDD.
Save Settings to USB HDDPress the Save button to save setting file to USB HDD.
Load Settings from USB HDDPress the Upload button to upload setting file from USB HDD.

4.6.3 Upgrading Firmware

This page provides the firmware upgrade of industrial wall-mount Gigabit router as shown in Figure 4-55.

Upgrade Firmware This page allows you upgrade the Access Point firmware to new version. Please note, do not power off the device during the upload because it may crash the system. Firmware Version: v1.3411b181012 Select File: Choose File No file chosen Upload Reset

Figure 4-55: Firmware upgrade

ObjectDescription
Choose FilePress the button to select the firmware.
UploadPress the button upgrades firmware to system.
ResetPress this button to cancel the file.

4.6.4 Reboot

This page enables the device to be rebooted from a remote location. Once the Reboot button is pressed, users have to re-log in the Web interface for about 60 seconds later as Figure 4-56 is shown below:

Reboot This page is used to reboot your system. Reboot

Figure 4-56: Reboot

ObjectDescription
RebootPress the button to reboot system.

Planet WGR-500-4PV - Reboot - 2

You can also check the SYS LED on the front panel to identify whether the System is loaded completely or not. If the SYS LED is blinking, then it is in the firmware load stage; if the SYS LED light is on, you can use the Web browser to log in the industrial wall-mount Gigabit router.

Appendix A: Troubleshooting

This chapter contains information to help you solve issues. If the industrial wall-mount Gigabit router is not functioning properly, make sure the industrial wall-mount Gigabit router was set up according to instructions in this manual.

■ The Link LED is not lit

Solution:

Check the cable connection and remove duplex mode of the industrial wall-mount Gigabit router

■ Some stations cannot talk to other stations located on the other port

Solution:

Please check the VLAN settings.

■ Performance is bad

Solution:

Check the full duplex status of the industrial wall-mount Gigabit router. If the industrial wall-mount Gigabit router is set to full duplex and the partner is set to half duplex, then the performance will be poor. Please also check the in/out rate of the port.

■ Why the Router doesn't connect to the network

Solution:

  1. Check the LNK/ACT LED on the router
  2. Try another port on the router
  3. Make sure the cable is installed properly
  4. Make sure the cable is the right type
  5. Turn off the power. After a while, turn on power again

■ 1000BASE-T port link LED is lit, but the traffic is irregular

Solution:

Check that the attached device is not set to dedicate full duplex. Some devices use a physical or software switch to change duplex modes. Auto-negotiation may not recognize this type of full-duplex setting.

■ Router does not power up

Solution:

  1. Terminal block or DC jack is not inserted or faulty
  2. Check that the terminal block or DC jack is inserted correctly
  3. If the terminal block or DC jack is inserted correctly; check that the power source is working by connecting a different device in place of the router.
  4. If that device works, refer to the next step.
  5. If that device does not work, check the power source

Appendix B: Planet Smart Discovery Utility

For easily listing the industrial wall-mount Gigabit router in your Ethernet environment, Planet Smart Discovery Utility from PLANET download center is an ideal solution.

The following installation instructions guide you to running the Planet Smart Discovery Utility.

Step 1: Download the Planet Smart Discovery Utility to the administrator PC.

Step 2: Run this utility and the following screen appears.

Planet WGR-500-4PV - Step 2: Run this utility and the following screen appears. - 1

Planet_Utility.exe PLANET Corp.

Step 3: Press the "Refresh" button for the currently connected devices in the discovery list as shown in the following screen:

PLANET Smart Discovery Lite File Option Help Refresh Exit MAC Address Device Name Version DeviceIP NewPassword IP Address NetMask Gateway Description A8-F7-E0-81-96-C1 WGR-500-4PV v1.3411b18101: 192.168.1.1 192.168.1.1 255.255.255.0 192.168.1.254 Industrial Gigabit PoE R Select Adapter : 192.168.1.100 (84:16:F9:06:9A:EE) Control Packet Force Broadcast Update Device Update Multi Update All Connect to Device Device : WGR-500-4PV (A8-F7-E0-81-96-C Get Device Information done.

Step 3: Press the "Connect to Device" button and then the Web login screen appears.

Planet WGR-500-4PV - Step 3: Press the "Connect to Device" button and then the Web login screen appears. - 1

The fields in the white background can be modified directly, and then you can apply the new setting by clicking the "Update Device" button.

Appendix C: Planet DDNS

First of all, please go to http://www.planetddns.com to register a Planet DDNS account, and refer to the FAQs (http://www.planetddns.com/index.php/faq) for how to register a free account.

PLANET DDNS Sign in ID / Email ******** Sign in Forgotten Password / Create A New Account

When you finish your DDNS account, please return to WAN Setup -> WAN Setup to set up your WAN type which can be connected to external network.

WAN Interface Setup

This page is used to configure the parameters for Internet network which PPPoE, PPTP or L2TP by click the item value of WAN Access type.

WAN Access Type:

Host Name:

MTU Size:

Attain DNS Automatically

Set DNS Manually

DNS 1:

DNS 2:

DNS 3:

Planet WGR-500-4PV - WAN Interface Setup - 1

Planet WGR-500-4PV - WAN Interface Setup - 2

Step 1. Enable PLANET Dynamic DDNS, and enter account, password, and DDNS.

PLANET DDNS Setting

DDNS Option:

Enable Dynamic DDNS

Easy Domain Name:

pt8196c9.planetddns.com

Account:

username

Password:

资料来源:国家发展改革委

DDNS:

ddnsdemo

.planetddns.com

Comment:

The Ground Truth image displays a single, solid horizontal line. According to Rule 2 (UNDERSCORE & LINE RULES), this is a stylistic or background line, not a placeholder underscore. Therefore, the OCR result must ignore it and output nothing or only meaningful text. The provided OCR content is "____", which consists of four underscores. This is an incorrect interpretation of the line as a placeholder, violating the rule that stylistic lines must be ignored. The OCR has hallucinated underscores where none should exist based on the GT's visual context. Hence, the OCR result is inconsistent with the Ground Truth.

Step 2. Go to Network-> WAN setup page to allow remote access from WAN port.

Enable uPNP Enable IGMP Proxy ✓ Enable Ping Access on WAN ✓ Enable Web Server Access on WAN Web Accessed port: 80 ✓ Enable IPsec pass through on VPN connection ✓ Enable PPTP pass through on VPN connection ✓ Enable L2TP pass through on VPN connection

Step 3. Apply the settings, and ensure you have connected the WAN port to the internet by Ethernet cable.

Step 4. In a remote computer, enter the Domain Name to the internet browser's address bar.

New Tab ← → G http://ddnsdemo.planetddns.com

Lastly you can go to My Devices page of Planet DDNS website to check if the "Last Connection IP" is displayed. This indicates your DDNS service is working properly.

PLANET DDNS PLANET PLANET Website FAQ Support Home My Devices Profile Welcome: Iwert12 (Sign Off) My Device Add Device + No. Registered Domain Name of Your Device Last Connection #: Modify Delete 1 Iwert12 Iwert12 218.68.105.70 16

Appendix D: Glossary

A

ARP

ARP is an acronym for Address Resolution Protocol. It is a protocol that used to convert an IP address into a physical address, such as an Ethernet address. ARP allows a host to communicate with other hosts when only the Internet address of its neighbors is known. Before using IP, the host sends a broadcast ARP request containing the Internet address of the desired destination system.

ARP Inspection

ARP Inspection is a secure feature. Several types of attacks can be launched against a host or devices connected to Layer 2 networks by "poisoning" the ARP caches. This feature is used to block such attacks. Only valid ARP requests and responses can go through the switch device.

Auto-Negotiation

Auto-negotiation is the process where two different devices establish the mode of operation and the speed settings that can be shared by those devices for a link.

D

Default Gateway (Router)

Every non-router IP device needs to configure a default gateway's IP address. When the device sends out an IP packet, if the destination is not on the same network, the device has to send the packet to its default gateway, which will then send it out towards the destination.

DHCP

DHCP is an acronym for Dynamic Host Configuration Protocol. It is a protocol used for assigning dynamic IP addresses to devices on a network.

DHCP used by networked computers (clients) to obtain IP addresses and other parameters such as the default gateway, subnet mask, and IP addresses of DNS servers from a DHCP server.

The DHCP server ensures that all IP addresses are unique, for example, no IP address is assigned to a second client while the first client's assignment is valid (its lease has not expired). Therefore, IP address pool management is done by the server and not by a human network administrator.

Dynamic addressing simplifies network administration because the software keeps track of IP addresses rather than requiring an administrator to manage the task. This means that a new computer can be added to a network without the hassle of manually assigning it a unique IP address.

DHCP Relay

DHCP Relay is used to forward and to transfer DHCP messages between the clients and the server when they are not on the same subnet domain.

The DHCP option 82 enables a DHCP relay agent to insert specific information into a DHCP request packets when forwarding client DHCP packets to a DHCP server and remove the specific information from a DHCP reply packets when forwarding server DHCP packets to a DHCP client. The DHCP server can use this information to implement IP address or other assignment policies. Specifically the option works by setting two sub-options: Circuit ID (option 1) and Remote ID (option2). The Circuit ID sub-option is supposed to include information specific to which circuit the request came in on. The Remote ID sub-option was designed to carry information relating to the remote host end of the circuit. The definition of Circuit ID in the switch is 4 bytes in length and the format is "vlan_id" "module_id" "port_no". The parameter of "vlan_id" is the first two bytes represent the VLAN ID. The parameter of "module_id" is the third byte for the module ID (in standalone switch it always equal 0, in stackable switch it means switch ID). The parameter of "port_no" is the fourth byte and it means the port number. The Remote ID is 6 bytes in length, and the value is equal the DHCP relay agents MAC address.

DNS

DNS is an acronym for Domain Name System. It stores and associates many types of information with domain names. Most importantly, DNS translates human-friendly domain names and computer hostnames into computer-friendly IP addresses. For example, the domain name www.example.com might translate to 192.168.0.1.

DoS

DoS is an acronym for Denial of Service. In a denial-of-service (DoS) attack, an attacker attempts to prevent legitimate users from accessing information or services. By targeting at network sites or network connection, an attacker may be able to prevent network users from accessing email, web sites, online accounts (banking, etc.), or other services that rely on the affected computer.

E

Ethernet Type

Ethernet Type, or EtherType, is a field in the Ethernet MAC header, defined by the Ethernet networking standard. It is used to indicate which protocol is being transported in an Ethernet frame.

F

FTP

FTP is an acronym for File Transfer Protocol. It is a transfer protocol that uses the Transmission Control Protocol (TCP) and provides file writing and reading. It also provides directory service and security features.

H

HTTP

HTTP is an acronym for Hypertext Transfer Protocol. It is a protocol that used to transfer or convey information on the World Wide Web (WWW).

HTTP defines how messages are formatted and transmitted, and what actions Web servers and browsers should take in response to various commands. For example, when you enter a URL in your browser, this actually sends an HTTP command to the Web server directing it to fetch and transmit the requested Web Page. The other main standard that controls how the World Wide Web works is HTML, which covers how Web Pages are formatted and displayed.

Any Web server machine contains, in addition to the Web Page files it can serve, an HTTP daemon, a program that is designed to wait for HTTP requests and handle them when they arrive. The Web browser is an HTTP client, sending requests to server machines. An HTTP client initiates a request by establishing a Transmission Control Protocol (TCP) connection to a particular port on a remote host (port 80 by default). An HTTP server listening on that port waits for the client to send a request message.

HTTPS

HTTPS is an acronym for Hypertext Transfer Protocol over Secure Socket Layer. It is used to indicate a secure HTTP connection.

HTTPS provide authentication and encrypted communication and is widely used on the World Wide Web for security-sensitive communication such as payment transactions and corporate logons.

HTTPS is really just the use of Netscape's Secure Socket Layer (SSL) as a sublayer under its regular HTTP application layering. (HTTPS uses port 443 instead of HTTP port 80 in its interactions with the lower layer, TCP/IP.) SSL uses a 40-bit key size for the RC4 stream encryption algorithm, which is considered an adequate degree of encryption for commercial exchange.

|

ICMP

ICMP is an acronym for Internet Control Message Protocol. It is a protocol that generated the error response, diagnostic or routing purposes. ICMP messages generally contain information about routing difficulties or simple exchanges such as time-stamp or echo transactions. For example, the PING command uses ICMP to test an Internet connection.

IGMP

IGMP is an acronym for Internet Group Management Protocol. It is a communications protocol used to manage the membership of Internet Protocol multicast groups. IGMP is used by IP hosts and adjacent multicast routers to establish multicast group memberships. It is an integral part of the IP multicast specification, like ICMP for unicast connections. IGMP can be used for online video and gaming, and allows more efficient use of resources when supporting these uses.

IP

IP is an acronym for Internet Protocol. It is a protocol used for communicating data across a internet network.

IP is a "best effort" system, which means that no packet of information sent over it is assured to reach its destination in the same condition it was sent. Each device connected to a Local Area Network (LAN) or Wide Area Network (WAN) is given an Internet Protocol address, and this IP address is used to identify

the device uniquely among all other devices connected to the extended network.

The current version of the Internet protocol is IPv4, which has 32-bits Internet Protocol addresses allowing for in excess of four billion unique addresses. This number is reduced drastically by the practice of webmasters taking addresses in large blocks, the bulk of which remain unused. There is a rather substantial movement to adopt a new version of the Internet Protocol, IPv6, which would have 128-bits Internet Protocol addresses. This number can be represented roughly by a three with thirty-nine zeroes after it. However, IPv4 is still the protocol of choice for most of the Internet.

IP Source Guard

IP Source Guard is a secure feature used to restrict IP traffic on DHCP snooping untrusted ports by filtering traffic based on the DHCP Snooping Table or manually configured IP Source Bindings. It helps prevent IP spoofing attacks when a host tries to spoof and use the IP address of another host.

L

LAN

Local Area Network. A LAN is a group of computers and devices connected together in a relatively small area (such as a house or an office). Your network is considered a LAN.

N

NAT

Network Address Translation. NAT technology translates IP addresses of a local area network to a different IP address for the Internet Using the NAT capability of WGR-500 Series, you can access the Internet from any computer on your network without having to purchase more IP addresses from your ISP.

NetBIOS

NetBIOS is an acronym for Network Basic Input/Output System. It is a program that allows applications on separate computers to communicate within a Local Area Network (LAN), and it is not supported on a Wide Area Network (WAN).

The NetBIOS giving each computer in the network both a NetBIOS name and an IP address corresponding to a different host name, provides the session and transport services described in the Open Systems Interconnection (OSI) model.

NTP

NTP is an acronym for Network Time Protocol, a network protocol for synchronizing the clocks of computer systems. NTP uses UDP (datagrams) as transport layer.

PD

PD is an acronym for Powered Device. In a PoE> system the power is delivered from a PSE (power sourcing equipment) to a remote device. The remote device is called a PD.

PHY

PHY is an abbreviation for Physical Interface Transceiver and is the device that implement the Ethernet physical layer (IEEE-802.3).

PING

ping is a program that sends a series of packets over a network or the Internet to a specific computer in order to generate a response from that computer. The other computer responds with an acknowledgment that it received the packets. Ping was created to verify whether a specific computer on a network or the Internet exists and is connected.

ping uses Internet Control Message Protocol (ICMP) packets. The PING Request is the packet from the origin computer, and the PING Reply is the packet response from the target.

POP3

POP3 is an acronym for Post Office Protocol version 3. It is a protocol for email clients to retrieve email messages from a mail server.

POP3 is designed to delete mail on the server as soon as the user has downloaded it. However, some implementations allow users or an administrator to specify that mail be saved for some period of time. POP can be thought of as a "store-and-forward" service.

An alternative protocol is Internet Message Access Protocol (IMAP). IMAP provides the user with more capabilities for retaining e-mail on the server and for organizing it in folders on the server. IMAP can be thought of as a remote file server.

POP and IMAP deal with the receiving of e-mail and are not to be confused with the Simple Mail Transfer Protocol (SMTP). You send e-mail with SMTP, and a mail handler receives it on your recipient's behalf. Then the mail is read using POP or IMAP. IMAP4 and POP3 are the two most prevalent Internet standard protocols for e-mail retrieval. Virtually all modern e-mail clients and servers support both.

PPPoE

PPPoE is an acronym for Point-to-Point Protocol over Ethernet.

It is a network protocol for encapsulating Point-to-Point Protocol (PPP) frames inside Ethernet frames. It is used mainly with ADSL services where individual users connect to the ADSL transceiver (modem) over Ethernet and in plain Metro Ethernet networks (Wikipedia).

Q

QoS

QoS is an acronym for Quality of Service. It is a method to guarantee a bandwidth relationship between individual applications or protocols.

A communications network transports a multitude of applications and data, including high-quality video and delay-sensitive data such as real-time voice. Networks must provide secure, predictable,

measurable, and sometimes guaranteed services.

Achieving the required QoS becomes the secret to a successful end-to-end business solution. Therefore, QoS is the set of techniques to manage network resources.

QoS class

Every incoming frame is classified to a QoS class, which is used throughout the device for providing queuing, scheduling and congestion control guarantees to the frame according to what was configured for that specific QoS class. There is a one to one mapping between QoS class, queue and priority. A QoS class of 0 (zero) has the lowest priority.

R

RADIUS

RADIUS is an acronym for Remote Authentication Dial In User Service. It is a networking protocol that provides centralized access, authorization and accounting management for people or computers to connect and use a network service.

S

SHA

SHA is an acronym for Secure Hash Algorithm. It designed by the National Security Agency (NSA) and published by the NIST as a U.S. Federal Information Processing Standard. Hash algorithms compute a fixed-length digital representation (known as a message digest) of an input data sequence (the message) of any length.

SMTP

SMTP is an acronym for Simple Mail Transfer Protocol. It is a text-based protocol that uses the Transmission Control Protocol (TCP) and provides a mail service modeled on the FTP file transfer service. SMTP transfers mail messages between systems and notifications regarding incoming mail.

SNMP

SNMP is an acronym for Simple Network Management Protocol. It is part of the Transmission Control Protocol/Internet Protocol (TCP/IP) protocol for network management. SNMP allow diverse network objects to participate in a network management architecture. It enables network management systems to learn network problems by receiving traps or change notices from network devices implementing SNMP.

T

Tag Priority

Tag Priority is a 3-bit field storing the priority level for the 802.1Q frame.

TCP

TCP is an acronym for Transmission Control Protocol. It is a communications protocol that uses the Internet Protocol (IP) to exchange the messages between computers.

The TCP protocol guarantees reliable and in-order delivery of data from sender to receiver and distinguishes data for multiple connections by concurrent applications (for example, Web server and e-mail server) running on the same host.

The applications on networked hosts can use TCP to create connections to one another. It is known as a connection-oriented protocol, which means that a connection is established and maintained until such time as the message or messages to be exchanged by the application programs at each end have been exchanged. TCP is responsible for ensuring that a message is divided into the packets that IP manages and for reassembling the packets back into the complete message at the other end.

Common network applications that use TCP include the World Wide Web (WWW), e-mail, and File Transfer Protocol (FTP).

TELNET

TELNET is an acronym for TELetype NETwork. It is a terminal emulation protocol that uses the Transmission Control Protocol (TCP) and provides a virtual connection between TELNET server and TELNET client.

TELNET enables the client to control the server and communicate with other servers on the network. To start a Telnet session, the client user must log in to a server by entering a valid username and password. Then, the client user can enter commands through the Telnet program just as if they were entering commands directly on the server console.

U

UDP

UDP is an acronym for User Datagram Protocol. It is a communications protocol that uses the Internet Protocol (IP) to exchange the messages between computers.

UDP is an alternative to the Transmission Control Protocol (TCP) that uses the Internet Protocol (IP).

Unlike TCP, UDP does not provide the service of dividing a message into packet datagrams, and UDP doesn't provide reassembling and sequencing of the packets. This means that the application program that uses UDP must be able to make sure that the entire message has arrived and is in the right order. Network applications that want to save processing time because they have very small data units to exchange may prefer UDP to TCP.

UDP provides two services not provided by the IP layer. It provides port numbers to help distinguish different user requests and, optionally, a checksum capability to verify that the data arrived intact.

Common network applications that use UDP include the Domain Name System (DNS), streaming media applications such as IPTV, Voice over IP (VoIP), and Trivial File Transfer Protocol (TFTP).

UPnP

UPnP is an acronym for Universal Plug and Play. The goals of UPnP are to allow devices to connect seamlessly and to simplify the implementation of networks in the home (data sharing, communications, and entertainment) and in corporate environments for simplified installation of computer components

User Priority

User Priority is a 3-bit field storing the priority level for the 802.1Q frame.

V

VLAN

Virtual LAN. A method to restrict communication between switch ports. VLANs can be used for the following applications:

VLAN unaware switching: This is the default configuration. All ports are VLAN unaware with Port VLAN ID 1 and members of VLAN 1. This means that MAC addresses are learned in VLAN 1, and the switch does not remove or insert VLAN tags.

VLAN aware switching: This is based on the IEEE 802.1Q standard. All ports are VLAN aware. Ports connected to VLAN aware switches are members of multiple VLANs and transmit tagged frames. Other ports are members of one VLAN, set up with this Port VLAN ID, and transmit untagged frames.

Provider switching: This is also known as Q-in-Q switching. Ports connected to subscribers are VLAN unaware, members of one VLAN, and set up with this unique Port VLAN ID. Ports connected to the service provider are VLAN aware, members of multiple VLANs, and set up to tag all frames. Untagged frames received on a subscriber port are forwarded to the provider port with a single VLAN tag. Tagged frames received on a subscriber port are forwarded to the provider port with a double VLAN tag.

VLAN ID

VLAN ID is a 12-bit field specifying the VLAN to which the frame belongs.

W

WAN

Wide Area Network. A network that connects computers located in geographically separate areas (e.g. different buildings, cities, countries). The Internet is a wide area network.

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Product information

Brand : Planet

Model : WGR-500-4PV

Category : Router