User's Manual
Table Of Contents
- 1. INTRODUCTION
- 2. INSTALLATION
- 3. SWITCH MANAGEMENT
- 4. WEB CONFIGURATION
- 4.1 Main Web page
- 4.2 System
- 4.2.1 Management
- 4.2.1.1 System Information
- 4.2.1.2 IP Configuration
- 4.2.1.3 IP Status
- 4.2.1.4 Users Configuration
- 4.2.1.5 Privilege Levels
- 4.2.1.6 NTP Configuration
- 4.2.1.6.1 System Time Correction Manually
- 4.2.1.7 Time Configuration
- 4.2.1.8 UPnP
- 4.2.1.9 DHCP Relay
- 4.2.1.10 DHCP Relay Statistics
- 4.2.1.11 CPU Load
- 4.2.1.12 System Log
- 4.2.1.13 Detailed Log
- 4.2.1.14 Remote Syslog
- 4.2.1.15 SMTP Configuration
- 4.2.1.16 Fault Alarm
- 4.2.1.17 Digital Input/Output
- 4.2.2 Simple Network Management Protocol
- 4.2.3 RMON
- 4.2.4 DHCP server
- 4.2.5 Industrial Protocol
- 4.2.1 Management
- 4.3 Switching
- 4.3.1 Port Management
- 4.3.2 Link Aggregation
- 4.3.3 VLAN
- 4.3.3.1 VLAN Overview
- 4.3.3.2 IEEE 802.1Q VLAN
- 4.3.3.3 VLAN Port Configuration
- 4.3.3.4 VLAN Membership Status
- 4.3.3.5 VLAN Port Status
- 4.3.3.6 Private VLAN
- 4.3.3.7 Port Isolation
- 4.3.3.8 VLAN setting example:
- 4.3.3.8.1 Two Separate 802.1Q VLANs
- 4.3.3.8.2 VLAN Trunking between two 802.1Q aware switches
- 4.3.3.8.3 Port Isolate
- 4.3.3.9 MAC-based VLAN
- 4.3.3.10 IP Subnet-based VLAN Membership Configuration
- 4.3.3.11 Protocol-based VLAN
- 4.3.3.12 Protocol-based VLAN Membership
- 4.3.4 Spanning Tree Protocol
- 4.3.5 Multicast
- 4.3.6 MLD Snooping
- 4.3.7 MVR (Multicast VLAN Registration)
- 4.3.8 LLDP
- 4.3.9 MAC Address Table
- 4.3.10 Loop Protection
- 4.3.11 UDLD
- 4.3.12 GVRP
- 4.3.13 PTP
- 4.3.14 Link OAM
- 4.4 Quality of Service
- 4.5 Security
- 4.6 Ring
- 4.7 Maintenance
- 4.8 Power over Ethernet
- 4.9 ONVIF
- 4.10 Routing
- 4.10.1 IP Configuration
- 4.10.2 IP Status
- 4.10.3 Routing Information Base
- 4.10.4 OSPF
- 4.10.4.1 Global Configuration
- 4.10.4.2 Network Area
- 4.10.4.3 Passive Interface
- 4.10.4.4 Stub Area
- 4.10.4.5 Area Authentication
- 4.10.4.6 Area Range
- 4.10.4.7 Interface Configuration
- 4.10.4.8 Virtual Link
- 4.10.4.9 Global Status
- 4.10.4.10 Area Status
- 4.10.4.11 Neighbor Status
- 4.10.4.12 Interface Status
- 4.10.4.13 Configuration Example of OSPFv4
- 5. SWITCH OPERATION
- 6. TROUBLESHOOTING
- APPENDIX A: Networking Connection
- APPENDIX B : GLOSSARY
User’s Manual of IGS-6325 series
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4.8.2 Power over Ethernet Powered Device
In a power over Ethernet system, operating power is applied from a power source (PSU or -power supply unit) over the LAN
infrastructure to powered devices (PDs), which are connected to ports.
3~5 watts
Voice over IP phones
Enterprises can install PoE VoIP phones, ATA sand other
Ethernet/non-Ethernet end-devices in the center where UPS is installed for
un-interruptible power system and power control system.
6~12 watts
Wireless LAN Access Points
Access points can be installed at museums, sightseeing sites, airports,
hotels, campuses, factories, warehouses, etc.
10~12 watts
IP Surveillance
IP cameras can be installed at enterprises, museums, campuses, hospitals,
banks, etc. without worrying about electrical outlets.
3~12 watts
PoE Splitter
PoE Splitter split the PoE 56V 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.
3~25 watts
High Power PoE Splitter
High PoE Splitter split the PoE 56V 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.
30~90 watts
High Power Speed Dome
Its state-of-the-art design fits
in various network environments like traffic
centers, shopping malls, railway stations, warehouses, airports and
production facilities for the most demanding outdoor surveillance
applications. No electricians are needed to install AC sockets.
PD Classifications
A PD may be classified by the PSE based on the classification information provided by the PD. The intent of PD classification is
to provide information about the maximum power required by the PD during operation. However, to improve power management
at the PSE, the PD provides a signature about Class level.