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User’s Manual of WGS Managed Series
4.15.4 PoE Schedule
This page allows the user to define PoE schedule and scheduled power recycling.
PoE Schedule
Besides being used as an IP Surveillance, the Managed PoE switch is certainly applicable to construct any PoE network including VoIP and Wireless LAN. Under the trend of energy saving worldwide and contributing to the environmental protection on the Earth, the Managed PoE switch 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 SMB or Enterprise saving power and money.
Scheduled Power Recycling
The Managed PoE switch allows each of the connected PoE IP cameras to reboot at a specified time each week. Therefore, it will reduce the chance of IP camera crash resulting from buffer overflow.
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The screen in Figure 4-16-4 appears.
User’s Manual of WGS Managed Series
Figure 4-16-4: PoE Schedule Screenshot
Please press Add New Rule button to start setting PoE Schedule function. You have to set PoE schedule to profile and then go back to PoE Port Configuration, and select “Schedule” mode from per port “PoE Mode” option to enable you to indicate which schedule profile could be applied to the PoE port.
The page includes the following fields:
Object
Profile
Week Day
Start Hour
Description
Set the schedule profile mode. Possible profiles are:
Profile1
Profile2
Profile3
Profile4
Allows user to set week day for defining PoE function by enabling it on the day.
Allows user to set what hour PoE function does by enabling it.
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Start Min
End Hour
End Min
Reboot Enable
Reboot Only
Buttons
Reboot Hour
Reboot Min
: Click to add new rule.
: Click to apply changes
: Check to delete the entry.
User’s Manual of WGS Managed Series
Allows user to set what minute PoE function does by enabling it.
Allows user to set what hour PoE function does by disabling it.
Allows user to set what minute PoE function does by disabling it.
Allows 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 use Reboot Only function. This function offers administrator to reboot PoE device at an indicated time if administrator has this kind of requirement.
Allows 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.
Allows user to set what hour PoE reboots. This function is only for PoE reboot schedule.
Allows user to set what minute PoE reboots. This function is only for PoE reboot schedule.
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Table of contents
- 10 1.1 Packet Contents
- 11 1.2 Product Description
- 15 1.3 How to Use This Manual
- 16 1.4 Product Features
- 19 1.5 Product Specifications
- 25 2.1 Hardware Description
- 25 2.1.1 Switch Front Panel
- 28 2.1.2 LED Indications
- 32 2.1.3 Physical Dimensions
- 35 2.2 Installing the Switch
- 35 2.2.1 Wall Mount/Magnet Installation
- 36 2.2.2 DIN-rail Mount Installation
- 38 2.2.3 Installing the SFP transceiver
- 41 3.1 Requirements
- 42 3.2 Management Access Overview
- 43 3 Web Management
- 44 4 SNMP-based Network Management
- 44 5 PLANET Smart Discovery Utility
- 49 4.1 Main Web Page
- 50 4.1.1 Save Button
- 51 4.1.2 Configuration Manager
- 52 4.1.2.1 Saving Configuration
- 53 4.2 System
- 53 4.2.1 System Information
- 54 4.2.2 IP Configurations
- 56 4.2.3 IPv6 Configuration
- 58 4.2.4 User Configuration
- 59 4.2.5 Time Settings
- 59 4.2.5.1 System Time
- 62 4.2.5.2 SNTP Server Settings
- 63 4.2.6 Log Management
- 63 4.2.6.1 Local Log
- 64 4.2.6.2 Local Log
- 65 4.2.6.3 Remote Syslog
- 67 4.2.6.4 Log Message
- 69 4.2.7 SNMP Management
- 69 4.2.7.1 SNMP Overview
- 70 4.2.7.2 SNMP System Information
- 70 4.2.7.3 SNMP View
- 72 4.2.7.4 SNMP Access Group
- 74 4.2.7.5 SNMP Community
- 75 4.2.7.6 SNMP User
- 77 4.2.7.7 SNMPv1, 2 Notification Recipients
- 78 4.2.7.8 SNMPv3 Notification Recipients
- 79 4.2.7.9 SNMP Engine ID
- 80 4.2.7.10 SNMP Remote Engine ID
- 82 4.3 Port Management
- 82 4.3.1 Port Configuration
- 84 4.3.2 Port Counters
- 89 4.3.3 Bandwidth Utilization
- 90 4.3.4 Port Mirroring
- 92 4.3.5 Jumbo Frame
- 93 4.3.6 Port Error Disabled Configuration
- 95 4.3.7 Port Error Disabled
- 95 4.3.8 Protected Ports
- 98 4.3.9 EEE
- 99 4.3.10 SFP Module Information
- 99 4.3.10.1 SFP Module Status
- 101 4.3.10.1 SFP Module Detail Status
- 102 4.4 Link Aggregation
- 104 4.4.1 LAG Setting
- 105 4.4.2 LAG Management
- 106 4.4.3 LAG Port Setting
- 108 4.4.4 LACP Setting
- 109 4.4.5 LACP Port Setting
- 110 4.4.6 LAG Status
- 113 4.5 VLAN
- 113 4.5.1 VLAN Overview
- 114 4.5.2 IEEE 802.1Q VLAN
- 118 4.5.3 Management VLAN
- 119 4.5.4 Create VLAN
- 120 4.5.5 Interface Settings
- 124 4.5.6 Port to VLAN
- 125 4.5.7 Port VLAN Membership
- 126 4.5.8 Protocol VLAN Group Setting
- 128 4.5.9 Protocol VLAN Port Setting
- 129 4.5.10 GVRP Setting
- 131 4.5.11 GVRP Port Setting
- 132 4.5.12 GVRP VLAN
- 133 4.5.13 GVRP Statistics
- 135 4.5.14 VLAN setting example
- 135 4.5.14.1 Two separate 802.1Q VLANs
- 138 4.5.14.2 VLAN Trunking between two 802.1Q aware switches
- 141 4.6 Spanning Tree Protocol
- 141 4.6.1 Theory
- 148 4.6.2 STP Global Settings
- 150 4.6.3 STP Port Setting
- 153 4.6.4 CIST Instance Setting
- 155 4.6.5 CIST Port Setting
- 157 4.6.6 MST Instance Configuration
- 159 4.6.7 MST Port Setting
- 161 4.6.8 STP Statistics
- 162 4.7 Multicast
- 162 4.7.1 Properties
- 163 4.7.2 IGMP Snooping
- 167 4.7.2.1 IGMP Setting
- 169 4.7.2.2 IGMP Querier Setting
- 170 4.7.2.3 IGMP Static Group
- 171 4.7.2.4 IGMP Group Table
- 172 4.7.2.5 IGMP Router Setting
- 173 4.7.2.6 IGMP Router Table
- 174 4.7.2.7 IGMP Forward All
- 175 4.7.3 IGMP Snooping Statics
- 177 4.7.4 MLD Snooping
- 177 4.7.4.1 MLD Setting
- 179 4.7.4.2 MLD Static Group
- 180 4.7.4.3 MLD Group Table
- 180 4.7.4.4 MLD Router Setting
- 182 4.7.4.5 MLD Router Table
- 183 4.7.4.6 MLD Forward All
- 184 4.7.5 MLD Snooping Statics
- 186 4.7.6 Multicast Throttling Setting
- 187 4.7.7 Multicast Filter
- 188 4.7.7.1 Multicast Profile Setting
- 189 4.7.7.2 IGMP Filter Setting
- 190 4.7.7.3 MLD Filter Setting
- 192 4.8 Quality of Service
- 192 4.8.1 Understanding QoS
- 193 4.8.2 General
- 193 4.8.2.1 QoS Properties
- 194 4.8.2.2 QoS Port Settings
- 195 4.8.2.3 Queue Settings
- 196 4.8.2.4 CoS Mapping
- 198 4.8.2.5 DSCP Mapping
- 199 4.8.2.6 IP Precedence Mapping
- 201 4.8.3 QoS Basic Mode
- 201 4.8.3.1 Global Settings
- 202 4.8.3.2 Port Settings
- 203 4.8.4 Rate Limit
- 203 4.8.4.1 Ingress Bandwidth Control
- 204 4.8.4.2 Egress Bandwidth Control
- 205 4.8.4.3 Egress Queue
- 206 4.8.5 Voice VLAN
- 206 4.5.8.1 Introduction to Voice VLAN
- 207 4.8.5.2 Properties
- 208 4.8.5.3 Telephony OUI MAC Setting
- 210 4.8.5.4 Telephony OUI Port Setting
- 212 4.9 Security
- 212 4.9.1 802.1X
- 213 4.9.1.1 Understanding IEEE 802.1X Port-based Authentication
- 216 4.9.1.2 802.1X Setting
- 217 4.9.1.3 802.1X Port Setting
- 219 4.9.1.4 Guest VLAN Setting
- 221 4.9.1.5 Authenticated Host
- 222 4.9.2 RADIUS Server
- 225 4.9.3 TACACS+ Server
- 227 4.9.4 AAA
- 228 4.9.4.1 Login List
- 229 4.9.4.2 Enable List
- 230 4.9.5 Access
- 230 4.9.5.1 Telnet
- 231 4.9.5.2 SSH
- 233 4.9.5.3 HTTP
- 234 4.9.5.4 HTTPs
- 235 4.9.6 Management Access Method
- 235 4.9.6.1 Profile Rules
- 237 4.9.6.2 Access Rules
- 238 4.9.7 DHCP Snooping
- 238 4.9.7.1 DHCP Snooping Overview
- 239 4.9.7.2 Global Setting
- 240 4.9.7.3 DHCP Snooping VLAN Setting
- 242 4.9.7.4 Port Setting
- 244 4.9.7.5 Statistics
- 245 4.9.7.6 Database Agent
- 247 4.9.7.7 Rate Limit
- 248 4.9.7.8 Option82 Global Setting
- 249 4.9.7.9 Option82 Port Setting
- 251 4.9.7.10 Option82 Circuit-ID Setting
- 252 4.9.8 Dynamic ARP Inspection
- 252 4.9.8.1 Global Setting
- 253 4.9.8.2 VLAN Setting
- 254 4.9.8.3 Port Setting
- 256 4.9.8.4 Statistics
- 257 4.9.8.5 Rate Limit
- 258 4.9.9 IP Source Guard
- 259 4.9.9.1 Port Settings
- 261 4.9.9.2 Binding Table
- 262 4.9.10 Port Security
- 264 4.9.11 DoS
- 264 4.9.11.1 Global DoS Setting
- 267 4.9.11.2 DoS Port Setting
- 268 4.9.12 Storm Control
- 268 4.9.12.1 Global Setting
- 269 4.9.12.2 Port Setting
- 271 4.10 ACL
- 272 4.10.1 MAC-based ACL
- 273 4.10.2 MAC-based ACE
- 276 4.10.3 IPv4-based ACL
- 277 4.10.4 IPv4-based ACE
- 282 4.10.5 IPv6-based ACL
- 283 4.10.6 IPv6-based ACE
- 288 4.10.7 ACL Binding
- 289 4.11 MAC Address Table
- 290 4.11.1 Static MAC Setting
- 291 4.11.2 MAC Filtering
- 292 4.11.3 Dynamic Address Setting
- 293 4.11.4 Dynamic Learned
- 295 4.12 LLDP
- 295 4.12.1 Link Layer Discovery Protocol
- 296 4.12.2 LLDP Global Setting
- 298 4.12.3 LLDP Port Setting
- 301 4.12.4 LLDP Local Device
- 303 4.12.5 LLDP Remove Device
- 304 4.12.6 MED Network Policy
- 308 4.12.7 MED Port Setting
- 311 4.12.8 LLDP Overloading
- 312 4.12.9 LLDP Statistics
- 314 4.13 Diagnostics
- 314 4.13.1 Cable Diagnostics
- 316 4.13.2 Ping
- 316 4.13.3 Ping Test
- 317 4.13.4 IPv6 Ping Test
- 318 4.13.5 Trace Router
- 319 4.14 RMON
- 319 4.14.1 RMON Statistics
- 321 4.14.2 RMON Event
- 322 4.14.3 RMON Event Log
- 323 4.14.4 RMON Alarm
- 326 4.14.5 RMON History
- 327 4.14.6 RMON History Log
- 328 4.15 Power over Ethernet
- 329 4.15.1 Power over Ethernet Powered Device
- 330 4.15.2 System Configuration
- 331 4.15.3 Power over Ethernet Configuration
- 334 4.15.4 PoE Schedule
- 337 4.15.5 PoE Alive Check Configuration
- 339 4.16 Maintenance
- 339 4.16.1 Factory Default
- 340 4.16.2 Reboot Switch
- 340 4.16.3 Backup Manager
- 341 4.16.4 Upgrade Manager
- 342 4.16.5 Dual Image
- 344 5.1 Address Table
- 344 5.2 Learning
- 344 5.3 Forwarding & Filtering