PLANET Technology POE-2400G User guide

12-/24-Port Gigabit 802.3at PoE+
Managed Injector Hub

POE-1200G/POE-2400G/

HPOE-1200G/HPOE-2400G

Trademarks

Copyright © PLANET Technology Corp. 2023.

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 c ommitment 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.

Energy Saving Note of the Device

This power required device does not support Standby mode operation. For energy saving, please remove the
power cable to disconnect the device from the power circuit. In view of saving the energy and reducing the
unnecessary power consumption, it is strongly suggested to remove the power connection for the device if
this device is not intended to be active.

WEEE Warning

To avoid the potential effects on t he environment and h uman health as a r esult 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.

Revision

PLANET 12-/24-Port Gigabit IEEE 802.3at PoE+ Managed Injector Hub User's Manual

FOR MODELS: POE-1200G/POE-2400G/HPOE-1200G/HPOE-2400G

REVISION: 6.0 (May, 2023)

Part No: EM-POE-1200G_2400G & HPOE-1200G_2400G_v6.0

Table of Contents

1. Introduction…………………………………………………………………….....………….5

1.1 Package Contents………………………………………………...........……………….………5

1.2 Product Overview………………………………………………………………………….…….6

1.3 Product Features………………………..........................……………………………….....…11

1.4 Product Specifications………………………………………………………………….………12

2. Physical Description………………………………………………………………….….....15

2.1 Hardware Description………………………………………………………………….….…....15

2.1.1 Injector Front Panel…………………………………………….....…………………15

2.1.2 LED Indicators………………………………………………………………….…….17

2.1.3 Injector Rear Panel…………………………………………………………….…….18

2.2 Installing the PoE+ Managed Injector Hub…....................................................................19

2.2.1 Desktop Installation…………………………………………………….........….......19

2.2.2 Rack Mounting……………………………………………………………………..…20

2.2.3 Network Application Installation………………………………………………….....21

2.2.4 Power over Ethernet Powered Device……………………………………….........22

3. Preparation………………………………………………………………………….....................23

3.1 System Requirements…………………………………………………………………….........23

3.2 Management Method …………………………………………………………………………...23

3.2.1 Web Management………………………………………………………..…………..23

3.2.2 PLANET Smart Discovery Utility……………………………………………...........25

3.3 Starting Setup in the Web UI…………………………………………………………..……….27

4.Web-based Management……………………………………………………………………........28

4.1 System…………………………………………………………………………………………....29

4.1.1 System Information .............................................................................................30

4.1.2 System Service ...................................................................................................31

4.1.3 Connection Status……………………………………….......………………….…...32

4.1.4 SNMP ……………………………………………………………………...................33

4.1.5 NMS……………………………………………………………………………………35

4.1.6 Remote Syslog……………………………………………………………………….35

4.1.7 Event Log………………………………………………………………………..…....36

4.2 Network…………………………………………………………………………..……………....37

4.2.1 LAN ………………………………………………………………..…………….........37

4.2.2 IPv6……………………………………..……………..…………………..................38

4.2.3 DDNS................................................................................................................ 39

4.3 Security………………………………………………………………......................................41

4.3.1 Firewall ............................................................................................................. 41

4.3.2 MAC Filtering…………………………………………………………………….......43

4.3.3 Certificates……………………………………………...........................................43

4.4 PoE……………………………………………………………………………………………….44

4.4.1 PoE Configuration…………………………………………………………………...45

4.4.2 PoE Status……………………………………………………………………………48

4.4.3 PoE Schedule .................................................................................................. 49

4.4.4 PoE Alive Check .............................................................................................. 51

4.5 Maintenance…………………………………………………………………………………….53

4.5.1 Administrator .................................................................................................... 54

4.5.2 Date and Time ................................................................................................. 54

4.5.3 Saving/Restoring Configuration ....................................................................... 55

4.5.4 Firmware Upgrading ........................................................................................ 56

4.5.5 Reboot/Reset ................................................................................................... 57

4.5.6 Auto Reboot ..................................................................................................... 57

4.5.7 Diagnostics ...................................................................................................... 58

5. Power over Ethernet Overview……………………………………………………………60

6. The PoE Provision Process……………………………………………………….……….62

6.1 Line Detection……………………………………………………………………….…………..62

6.2 Classification………………………………………………………………………….………....62

6.3 Start-up……………………………………………………………………………….................63

6.4 Operation………………………………………………………………………….....................63

6.5 Power Disconnection Scenarios…………………..............................................................63

APPENDIX A……………………………………………………………....................……………..65

A.1 MDI Settings………………………………………………….................................................65

A.2 Power Device Classification Values………………….........................................................65

A.3 DATA OUT PoE Injector RJ45 Port Pin Assignments……….............................................66

1. Introduction

Thank you for purchasing PLANET 12-/24-Port Gigabit IEEE 802.3at PoE+ Managed Injector Hub,

POE-1200G, POE-2400G, HPOE-1200G or HPOE-2400G. The descriptions of these models are as follows:

POE-1200G
POE-2400G
HPOE-1200G
HPOE-2400G 24-Port Gigabit IEEE 802.3at PoE+ Managed Injector Hub (720 watts)

“PoE+ Managed Injector Hub” mentioned in the manual refers to the above models.

12-Port Gigabit IEEE 802.3at PoE+ Managed Injector Hub (220 watts)

24-Port Gigabit IEEE 802.3at PoE+ Managed Injector Hub (440 watts)

12-Port Gigabit IEEE 802.3at PoE+ Managed Injector Hub (360 watts)

1.1 Package Contents

Open the box of the PoE+ Managed Injector Hub and carefully unpack it. The box should contain the following

items:

Model Name

Package Item

The PoE+ Managed Injector Hub
QR Code Sheet
Rubber Feet
Two Rack-mounting Brackets

with Attachment Screws
Power Cord

POE- 1200G POE- 2400G HPOE- 1200G HPOE- 2400G

■ ■ ■ ■

■ ■ ■ ■

■ ■ ■ ■

■ ■ ■ ■

■ ■ ■ ■

If any item is found missing or damaged, please contact your local reseller for

replacement.

1.2 Product Overview

PLANET’s newly-improved PoE+ Managed Injector Hub series, a quick high-density rack-mountable

managed PoE solution, is designed to perfectly upgrade an existing network infrastructure to IEEE 802.3at

Power over Ethernet Plus network system without replacing the existing Ethernet Switch. The PoE+ Managed

Injector Hub series’ management functions have been enhanced to include TLSv1.2 and TLSv1.3 protocols,

PLANET DDNS/Easy DDNS service, PLANET NMS system, PLANET CloudViewer, and more.

Cybersecurity Network Solution to Minimize Security Risks

The cybersecurity feature included to protect the PoE+ Managed Injector Hub series management in a

mission-critical network virtually needs no effort and cost to install. Both TLSv1.2 and TLSv1.3 protocols are

utilized to provide strong protection against advanced threats. The network administrator can now construct

highly-secure corporate networks with considerably less time and effort than before.

Remote Management Solution

PLANET's Universal Network Management System (UNI-NMS) and CloudViewer app support IT staff by

remotely managing all network devices and monitoring PDs' operational statuses. Thus, they're designed for

both the enterprises and industries where deployments of PDs can be as remote as possible, without having

to go to the actual location once a bug or faulty condition is found. With the UNI-NMS or CloudViewer app, all

kinds of businesses can now be speedily and efficiently managed from one platform.

Perfect Managed PoE+ Injector Hub with Full Power Budget

The PoE+ Managed Injector Hub series features PLANET intelligent functions where remote management
can be done through web user interface. It provides 12/24 10/100/1000BASE-T Ethernet ports featuring

802.3at PoE+ injector function with a total PoE budget of 220 to 720 watts. Each PoE port can deliver up to

36-watt power over Cat.5/5e/6 Ethernet UTP cables which allow data and power to transmit simultaneously to

a remote 802.3at/af powered device (PD).

The PoE+ Managed Injector Hub series enables centralization of the power supply and optimizes the

installation and power management of remote network devices, and provides a quick, safe and cost-effective

Power over Ethernet network solution for small businesses and enterprises.

Model PoE Standard PoE+ Interface Total PoE Budget

POE-1200G

HPOE-1200G

POE-2400G

HPOE-2400G

IEEE 802.3at PoE+

IEEE 802.3af PoE

12 220 watts

12 360 watts

24 440 watts

24 720 watts

Quick and Easy PoE Network Deployment

The PoE+ Managed Injector Hub series is installed between a regular Ethernet Switch and the PDs. There

are totally 24/48 RJ45 STP ports on the front panel of the PoE+ Managed Injector Hub series, of which the

12/24 ports on the lower part of the hub functioned as "Data input" while the other 12/24 ports on the upper
part functioned as "PoE (Data and Power) output". Both power and data are transmitted simultaneously over

the UTP cables to PDs without affecting the existing network performance and functions.

With data and Power over Ethernet from one unit, the PoE+ Managed Injector Hub series can reduce power

cable deployment and eliminate the need for dedicated electrical outlets on the wall, ceiling or any

unreachable place.

IEEE 802.3at PoE+ Stand ard Comp liance

The PoE in-line power adopting the IEEE 802.3at Power over Ethernet Plus standard makes the PoE+
Managed Injector Hub series able to deliver per port up to 36 watts of power to each remote PoE compliant

PD. It possesses double amount of power capability than the conventional 802.3af PoE and is an ideal

solution to satisfy the growing demand for higher power consuming network PDs, such as PTZ (pan, tilt and

zoom), speed dome network cameras, color touch-screen or video and voice over IP (VoIP) telephones,

multi-channel 802.11ac wireless LAN access points and other network devices.

User-friendly Web Management Interface

To efficiently manage the PDs, the PoE+ Managed Injector Hub series provides simple Web management
interface in which administrators can control the system and PoE functions for PDs. It can automatically

detect the power status of each port and show messages on its Web management interface. These features

also provide users with a cost-effective way to manage the device via Internet whenever they are at work or at

home.

Built-in Unique PoE Functions for Powered Device Management

As it is the managed PoE+ Managed Injector Hub for VoIP, wireless and surveillance networks, the PoE+

Managed Injector Hub series features the following special PoE management functions:

 PoE schedule

 PD alive check

 Scheduled power recycling

 PoE usage monitoring

Intelligent Powered Device Alive Check

PLANET’s Managed PoE products adopt not only Power over Ethernet technology, but also automated PD

monitoring and real-time PoE status. The PoE+ Managed Injector Hub series can be configured to monitor

connected PD’s status in real time via ping action through the uplinked Ethernet switch. Once the PD stops

working and responding, the PoE+ Managed Injector Hub series will recycle the PoE port power and bring the

PD back to work. It also will greatly enhance the network reliability in that the PoE port will reset the PD power,

thus reducing administrator’s management burden.

PoE Schedule for Energy Savings

Under the trend of energy savings worldwide and contributing to environmental protection on the Earth, the

PoE+ Managed Injector Hub series can effectively control the power supply besides its capability of giving

high watts power. The built-in “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 money.

PoE Usage Monitoring

Via the power usage chart in the web management interface, the PoE+ Managed Injector Hub series enables

the administrator to monitor the status of the power usage of the connected PDs in real time. Thus, it greatly

enhances the management efficiency of the facilities.

High Power Budget for PoE Extension

With 36-watt PoE output capability, the PoE+ Managed Injector Hub series can extend much longer distance

by using PLANET PoE Extender for powering up the PoE PD which can be installed over more than 100

meters away. By daisy-chaining multiple PLANET PoE Extenders, it offers the great flexibility of doubling,

tripling or quadrupling the distance of PoE network.

Smart Fan Design for Silent Operation

The PoE+ Managed Injector Hub series features a low noise design and an effective ventilation system. It

supports the smart fan technology that automatically controls the speed of the built-in fan to reduce noise and

maintain the temperature of the PoE+ Managed Injector Hub series for optimal power output capability. The

speed of the smart fan is displayed on the monitor. The PoE+ Managed Injector Hub series is able to operate

reliably, stably and quietly in any environment without affecting its performance.

Scheduled Power Rebooting

The PoE+ Managed Injector Hub series can be scheduled to reboot at a specified time like every minute,

every hour, every day to reduce the chance of PD device crash resulting from buffer overflow.

1.3 Produc t Fe atur e s

 Interface

 24-/48-port RJ45

 12-/24-port 10/100/1000Mbps “Data input”
 12-/24-port 10/100/1000Mbps “Data + Power output”

 One 10/100/1000BASE-T management port

 Power over Ethernet

 Complies with IEEE 802.3at Power over Ethernet Plus mid-span PSE

 Up to 12/24 IEEE 802.3at/802.3af devices powered

 PoE power up to 30.8 watts (802.3at PoE+)/15.4 watts (802.3af PoE) for each PoE port

 Automatically detects PD

 Circuit protection prevents power interference between ports

 Remote power feeding up to 100m

 PoE Management

 Per port PoE power schedule

 PoE function enable/disable

 Per port PoE function enable/disable

 PoE port power feeding priority

 PD classification detection

 PD alive check

 Security

 SPI firewall

 MAC filtering

 System CA certificate for HTTPS

 Management

 IPv4 and IPv6 dual stack management

 Web interface for remote management

 PLANET DDNS and Easy DDNS

 Network Time Protocol (NTP)

 System Maintenance

− Firmware upload via HTTP

− Configuration upload/download via HTTP

− Reboot button for system reboot

− Reset button for system reset to factory default

 PLANET Smart Discovery utility automatically finds PLANET devices on the network

Product

POE-1200G

HPOE-1200G

POE-2400G

HPOE-2400G

“Data” Input Ports

12 x RJ45

12 x RJ45

24 x RJ45

24 x RJ45

Ports

Management Port

Weight

Green

 PLANET NMS system and CloudViewer for deployment management

 SNMP v1, v2c and v3 for system status monitoring

 SNMP trap for alarm notification of events

 System event log/remote syslog

 Scheduled System Power Rebooting

 Network Diagnostic

− ICMPv6/ICMPv4 Remote Ping

− Trace Route

 Hardware

 19-inch rack mountable; 1U height

 Reset button for resetting to default setting and system reboot

 LED indicators for PoE ready and PoE activity

 LED indicators for power alert and fan alert

 FCC Part 15 Class A, CE

1.4 Product Specifications

Hardware

Hardware Version 6

Interface

Data Rate 10/100/1000Mbps

Power Requirements

Power Consumption

Ventilation
Dimensions (W x D x H)

Reset Button

LED

Network Cable

“Data + Power” Output

12 x RJ45 12 x RJ45 24 x RJ45 24 x RJ45

1 x RJ45; 10/100/1000BASE-T, auto-negotiation, auto-MDI/MDIX

100-240V AC,
50/60 Hz, 4A

251 watts/

856 BTU

Smart Fan x 2

440 x 300 x 44mm

3.6kg 3.9kg 4kg 4.3kg

< 5 sec: System reboot
> 5 sec: Factory default

System: SYS PWR x 1 (Green)

PoE Failure x 1 (Red)
Fan 1 Failure x 1 (Red)
Fan 2 Failure x 1 (Red)

Per PoE Port: PoE-in-use x 1 (Amber)

Management port x 1: LNK/ACT (

10BASE-T: 4-pair UTP Cat5 up to 100m (328ft)
100BASE-TX: 4-pair UTP Cat5 up to 100m (328ft)
1000BASE-T: 4-pair UTP Cat5e/6 up to 100m (328ft)
EIA/TIA- 568 100-ohm STP (100m)

100-240V AC,

50/60 Hz, 8A

382 watts/
1303 BTU

100-240V AC,
50/60 Hz, 8A

514 watts/

1753 BTU

)

100-240V AC,
50/60 Hz, 12A

719 watts/

2453 BTU

Power over Ethernet

Power Pin Assignment

440 watts@0~40℃

protection function

720 watts@0~39 ℃

protection function

can be powered

be powered

Security

Management

Management Interface

Secure Management Interface

ICMPv6/ICMPv4 remote ping

PoE Power Supply Type
PoE Power Output Per port DC 54V 30.8/15.4 watts

Mid-span

4/5(+), 7/8(-)

400 watts@41~50

℃

PoE Power Budget 220 watts 360 watts

Number of 802.3af PDs (Class 0, 1, 2, 3)

Number of 802.3at PDs (Class 1, 2, 3)
can be powered
Number of 802.3at PDs (Class 0, 4) can

Firewall
Filtering MAC Filtering
Certificates System CA Certificate for HTTPS

PoE Management

Management Feature

12 12 24 24

12 12 14 24

7 12 14 24

SPI Firewall

Web, PLANET Smart Discovery Lite

TLSv1.2, TLSv1.3

Power limit by consumption and classification
PoE function enable/disable
Per port PoE function enable/disable
Per port PoE power schedule
Power feeding priority
PD alive check
PD classification detection
Current per port usage and status
Total power consumption

IPv4 and IPv6 dual stack management
Web interface for remote management
PLANET DDNS and easy DDNS
Network Time Protocol (NTP)
System Maintenance

 Firmware upload via HTTP
 Configuration upload/download via HTTP
 Reboot button for system reboot
 Reset button for system reset to factory default

PLANET Smart Discovery utility
PLANET NMS system and CloudViewer for deployment
management
SNMP v1, v2c and v3 for system status monitoring
SNMP trap for alarm notification of events
System event log/remote syslog
Scheduled system power rebooting

Auto power budget
control by over
temperature

670 watts@40~49℃
620 watts@50℃
Auto power budget
control by over
temperature

Network Diagnostic

−

Standards Conformance

IEEE 802.3 10BASE-T Ethernet

RFC 5424: Syslog

Relative Humidity: 5 ~ 90% (non-condensing)

− Trace route

Regulatory Compliance

Standards Compliance

Environments

Operating

Storage

FCC Part 15 Class A, CE

IEEE 802.3u 100BASE-TX Fast Ethernet
IEEE 802.3ab 1000BASE-T Gigabit Ethernet
IEEE 802.3at Power over Ethernet Plus
IEEE 802.3af Power over Ethernet
RFC 768: UDP
RFC 791: IP
RFC 2068 HTTP
RFC 1157: SNMP v1
RFC 1902: SNMP v2c
RFC 2273: SNMPv3

Temperature: 0 ~ 50 degrees C

Temperature: -10 ~ 70 degrees C

Relative Humidity: 5 ~ 90% (non-condensing)

2. Physical Description

This section describes the hardware features and installation of these PoE+ Managed Injector Hub on the

desktop or rack mount. For easier management and control of the PoE+ Managed Injector Hub, familiarize

yourself with its display indicators, and ports. Front panel illustrations in this chapter display the unit LED

indicators. Before deploying the PoE+ Managed Injector Hub, please read this chapter completely.

2.1 Hardware Description

The section describes the hardware of the PoE+ Managed Injector Hub and gives a physical and functional

overview.

2.1.1 Injector Front Panel

The unit front panel provides a simple interface monitoring the PoE+ Managed Injector Hub. Figure 2-1-1,

2-1-2, 2-1-3 & 2-1-4 show the front panel of the PoE+ Managed Injector Hub.

 Front Panel of POE-1200G

 Front Panel of POE-2400G

 Front Panel of HPOE-1200G

 Front Panel of HPOE-2400G

Figure 2-1-1: POE-1200G front panel

Figure 2-1-2: POE-2400G front panel

Figure 2-1-3: HPOE-1200G front panel

Figure 2-1-4: HPOE-2400G front panel

Reset button

At the left of the front panel, the reset button is designed for rebooting the PoE+ Managed Injector Hub

without turning off and on the power.

Figure 2-1-5: Reset Button of PoE+ Managed Injector Hub

The following is the summary table of reset button functions:

Reset Button Pressed and Released Function

About 1 second Reboot the PoE+ Managed Injector Hub.

Reset the PoE+ Managed Injector Hub to Factory

About 10 seconds

Default configuration. The PoE+ Managed Injector Hub

will reboot and load the default IP settings as shown

below.

Be sure that you back up the current configuration of PoE+ Managed Injector Hub

before resetting PoE+ Managed Injector Hub or else the entire configuration will be

erased when pressing the “RESET” button.

2.1.2 LED Indicat ors

SYS Power

Green

Lights

PoE Failure

Red

Lights

Fan1 Failure

Red

Lights

Fan2 Failure

Red

Lights

Lights to indicate the link through that port is successfully established at

10100/1000Mbps.

SYS Power

Green

Lights to indicate power on.

PoE Failure

Red

Lights to indicate PoE module failure.

Fan1 Failure

Red

Lights to indicate Fan 1 has stopped.

Fan2 Failure

Red

Lights to indicate Fan 2 has stopped.

Lights to indicate the link through that port is successfully established at

10100/1000Mbps.

The front panel LEDs indicates instant status of system power, fan, management port Link/Active and PoE

port links, thus helping administrator to monitor and troubleshoot when needed.

POE-1200G/HPOE-1200G

 System

LED Color Function

to indicate power on.

to indicate PoE module failure.

to indicate Fan 1 has stopped.

to indicate Fan 2 has stopped.

Management Port Green

 Per 10/100/1000BASE-T 802.3at PoE+ Port (Port 1 to Port 12)

LED Color Function

PoE-in-use

POE-2400G/HPOE-2400G

 System

Management Port Green

 Per 10/100/1000BASE-T 802.3at PoE+ Port (Port 1 to Port 24)

LED Color Function

PoE-in-use

Amber

LED Color Function

Amber

Lights to indicate that the port is in use and supplying PoE in-line power.

Lights to indicate that the port is in use and supplying PoE in-line power.

2.1.3 Injector Rear Panel

PoE+ Managed

,

you from network data loss or network downtime.

or

The rear panel of the PoE+ Managed Injector Hub indicates an AC inlet power socket, which accepts input

power from 100 to 240V AC, 50/60Hz. Figures 2-1-6 & 2-1-7 & 2-1-8 & 2-1-9 show the rear panel of the PoE+

Managed Injector Hub.

Figure 2-1-6: POE-1200G Rear Panel

Figure 2-1-7: HPOE-1200G Rear Panel

The PoE+ Managed Injector Hub is a power-required device, meaning
Injector Hub will not work till it is powered. If your networks should be active all the time
please consider using UPS (Uninterrupted Power Supply) for your device. It will prevent

In some areas, installing a surge suppression device may also help to protect your device

from being damaged by unregulated surge or current to the PoE+ Managed Injector Hub

the power adapter.

Figure 2-1-8: POE-2400G Rear Panel

Figure 2-1-9: HPOE-2400G Rear Panel

2.2 Installing the PoE+ Managed Injector Hub

This section describes how to install your PoE+ Managed Injector Hub and make connections to the PoE+

Managed Injector Hub. Please read the following topics and perform the procedures in the order being

presented. PLANET PoE+ Managed Injector Hub does not need software configuration.

2.2.1 Desktop Instal lation

To install a PoE+ Managed Injector Hub on a desktop or shelf, simply complete the following steps:

Step 1: Attach the rubber feet to the recessed areas on the bottom of the PoE+ Managed Injector Hub.
Step 2: Place the PoE+ Managed Injector Hub on a desktop or shelf near an AC power source.
Step 3: Keep enough ventilation space between the PoE+ Managed Injector Hub and the surrounding

objects.

When choosing a location, please keep in mind the environmental restrictions discussed

in Chapter 1, Section 5, under Specifications.

Step 4: Connect your PoE+ Managed Injector Hub to network 802.3at/802.3af powered devices (PD) and

Switch.

A. Connect one end of a standard network cable to the upper stack 10/100/1000T RJ45 ports on the

front of the PoE+ Managed Injector Hub.

B. Connect the other end of the cable to the 802.3at / 802.3af powered devices (PD) such as IP phone,

wireless access point, IP camera, splitter, or switch etc.

C. Connect one end of a standard network cable to the relative lower stack 10/100/1000T RJ45 port on

the front of the PoE+ Managed Injector Hub.

D. Connect the other end of the cable to the port of Switch.

Connecting to the PoE+ Managed Injector Hub requires UTP Category 5e/6 network
cabling with RJ45 tips. For more information, please see the Cabling Specification in
Appendix A.

Step 5: Supply Power to the PoE+ Managed Injector Hub.

A. Connect one end of the power cable to the PoE+ Managed Injector Hub.
B. Connect the power plug of the power cable to a standard wall outlet.

When the PoE+ Managed Injector Hub receives power, the Power LED should remain solid Green.

2.2.2 Rack Mounting

To install the PoE+ Managed Injector Hub in a 19-inch standard rack, follow the instructions described below.

Step 1: Place your PoE+ Managed Injector Hub on a hard flat surface, with the front panel positioned towards

your front side.

Step 2: Attach a rack-mount bracket to each side of the PoE+ Managed Injector Hub with supplied screws

attached to the package. Figure 2-2-1 shows how to attach brackets to one side of the PoE+ Managed

Injector Hub.

Figure 2-2-1: Brackets attaching to the PoE+ Managed Injector Hub

You must use the screws supplied with the mounting brackets. Damage caused to the

parts by using incorrect screws would invalidate the warranty.

Step 3: Secure the brackets tightly.
Step 4: Follow the same steps to attach the second bracket to the opposite side.
Step 5: After the brackets are attached to the Injector, use suitable screws to securely attach the brackets to

the rack, as shown in Figure 2-2-2.

Figure 2-2-2: Mounting the PoE+ Managed Injector Hub in a Rack

Step 6: Proceed with steps 4 and 5 of session 2.2.1 Desktop Installation to connect the network cabling and

supply power to your PoE+ Managed Injector Hub.

2.2.3 Network Application Installation

The PoE+ Managed Injector Hub is not an equipment with data switching function between data ports. To

inject PoE power and transmit data packets to PDs, the PoE+ Managed Injector Hub is usually linked to an

Ethernet switch. Typically, the Mid-span Injector is installed between regular Ethernet switch and PDs, and

mostly it is located close to the Ethernet switch side.

To install a PoE+ Managed Injector Hub on a network environment, simply complete the following steps:

Step 1: Power on the PoE+ Managed Injector Hub and connect the RJ45 cable from the “Data” port to the

Ethernet switch port.

Step 2: Connect the RJ45 cable from the “Data + Power” ports to the PDs, such as VoIP phone and IP

camera.

Step 3: Check the link status on both PD and Ethernet switch. Once the Injector starts to deliver 52V power

over RJ45 cables to PDs, the PoE-in-Use LED of the PoE+ Managed Injector Hub lights up.

Figure 2-2-3: Network application installation

The PoE+ Managed Injector Hub supports data passive mode, that is, even the PoE+ Managed Injector Hub

is manually powered off, the data between “DATA” port and “DATA & PWR” port can still be transmitted

without data loss.

2.2.4 Power over Ethernet Powered Device

warehouses, airports, and production facilities for the most

plications. Electrician is not

Voice over IP phones

Enterprise can install POE VoIP Phone, ATA and other

Ethernet/non-Ethernet end-devices in the central area where UPS is

installed for un-interruptible power system and power control

system.

Wireless LAN Access Points

Museums, sightseeing spots, airports, hotels, campuses, factories,

and warehouses can install the Access Point anywhere.

IP Surveillance

Enterprises, museums, campuses, hospitals and banks can install

IP camera without the limit of the installation location. Electrician is

not needed to install AC sockets.

PoE Splitter

PoE Splitter splits the PoE DC over the Ethernet cable into

5/12/19/24V 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.

3~5 watts

6~12 watts

10~12 watts

3~60 watts

High Power Speed Dome

This state-of-the-art design is considerable to fit in various network
environments like traffic centers, shopping malls, railway stations,

demanding outdoor surveillance ap

30~60 watts

needed to install AC sockets.

3. Preparation

Before getting into the device’s web UI, user has to check the network setting and configure PC’s IP address.

3.1 System Requirements

 Workstations running Windows XP/2003/2008/2012/Vista/7/8/10/11, MAC OS X or later, Linux,

UNIX, or other platforms are compatible with TCP/IP protocols.

 Workstations are installed with Ethernet NIC (Network Interface Card)

 Ethernet Port Connection

 Network cables -- Use standard network (UTP) cables with RJ45 connectors.

 The above PC is installed with Web browser.

It is recommended to use Chrome 98.0.xxx or above to access the PoE+ Managed Injector

Hub. If the Web interface of the PoE+ Managed Injector Hub is not accessible, please turn off

the anti-virus software or firewall and then try it again.

3.2 Management Method

User can manage the PoE injector Hub by Web Management via network connection.

3.2.1 Web Management

Summary:

 The PoE Injector Hub can be configured through an Ethernet connection.

 The factory default IP address is 192.168.0.100 with subnet mask 255.255.255.0.

 Please make sure the manager PC must be set on the same IP subnet address.

 The POE Injector Hub IP address is set to factory default, then your manager PC should be set at

192.168.0.x (where x is a number between 1 and 254, except 100) with a s ubnet mask of

255.255.255.0.

 Use Chrome 98.0.xxx or above Web browser and enter IP address http://192.168.0.100 (the factory

default IP address or the one that you have just changed in web) to access the Web interface.

Figure 3-2-1: Web Management over Ethernet Connection

 When the following dialog box appears, please enter the default user name and password “admin” (or

the password you have changed via console). The web login screen in Figure 3-2-2 appears.

 Default IP Address: 192.168.0.100
 Default Username: admin
 Default Password: admin

1. For security reason, please change and memorize the new password after this first setup.

2. Only accept command in lowercase letter under Web interface.

Figure 3-2-2: PoE+ Managed Injector Hub Web Login Screen

3.2.2 PLANET Smart Discovery Utility

For easily listing the PoE+ Managed Injector Hub in your Ethernet environment, the search tool -- PLANET

Smart Discovery Utility -- is an ideal solution.

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

1. Download the PLANET Smart Discovery Utility in administrator PC.

2. Run this utility as the following screen appears.

Figure 3-2-3: PLANET Smart Discovery Utility Screen

If there are two LAN cards or above in the same administrator PC, choose a different

LAN card by using the “Select Adapter” tool.

3. Press the “Refresh” button for the currently connected devices in the discovery list as the screen

shows below:

Figure 3-2-4: PLANET Smart Discovery Utility Screen

1. This utility shows all necessary information from the devices, such as MAC address, device name,

firmware version, and device IP subnet address. It can also assign new password, IP subnet address and

description to the devices.

2. After setup is completed, press the “Update Device”, “Update Multi” or “Update All” button to take

effect. The functions of the 3 buttons above are shown below:

 Update Device: use current setting on one single device.
 Update Multi: use current setting on choose multi-devices.
 Update All: use current setting on whole devices in the list.

The same functions mentioned above also can be found in “Option” tools bar.

3. To click the “Control Packet Force Broadcast” function, it allows you to assign a new setting value to the

device under a different IP subnet address.

4. Press the “Connect to Device” button and the Web login screen appears.
Press the “Exit” button to shut down the PLANET Smart Discovery Utility.

3.3 Starting Setup in the Web UI

It is easy to configure and manage the PoE+ Managed Injector Hub with the web browser.

Step 1. To access the configuration utility, open a web-browser and enter the default IP address

http://192.168.0.100 in the web address field of the browser.

Step 2. When the login window pops up, please enter username and password. The default username

and password are “admin”. Then click the LOGIN button to continue.

The following screen is based on the HPOE-2400G. For the POE-1200G/POE-2400G

/HPOE-1200G, the web screen is the same as that of the HPOE-2400G.

Figure 3-3-1: Web Login Screen

4.Web-based Management

Function Menu

Main Menu

This chapter delivers a detailed presentation of PoE+ Managed Injector Hub’s functionalities and allows you

to manage the PoE+ Managed Injector Hub with ease.

Figure 4-1: Main Web Page

■ Main Menu

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 device by selecting the functions those listed in the function

menu and button as shown in Figures 4-2 and 4-3.

Figure 4-2: Function Menu

Main Menu
Object Description

System

Network

Security

Provides system information of the PoE+ Managed Injector Hub.

Provides LAN and network configuration of the PoE+ Managed Injector Hub.

Provides firewall and security configuration of the PoE+ Managed Injector Hub.

PoE

Maintenance

Figure 4-3: Function Button

Provides PoE Management configuration of the PoE+ Managed Injector Hub.

Provides firmware upgrade and setting file restore/backup configuration of the

PoE+ Managed Injector Hub.

Auto Logout
Object Description

Provide various Web Logout time options, the available options are shown

as below:

Auto Logout (Default mode)

Off

3 min

5 min

10 min

15 min

Click the "Refresh button" to refresh the current web page.

Click the "Logout button" to log out the web UI of the PoE+ Managed

Injector Hub.

4.1 System

Use the system menu items to display and configure basic administrative details of the PoE+ Managed

Injector Hub. The System menu shown in Figure 4-1-1 provides the following features to configure and

monitor system.

System
Object Description

System Information
System Service
Connection Status
SNMP
NMS

Remote Syslog
Event Log

Display the status of the Device Information and LAN Information.

Display the status of the Service and Secured Service information.

Display the ARP table information.

Display SNMP system information.

Enable/Disable NMS on PoE+ Managed Injector Hubs.

Enable Remote syslog on PoE+ Managed Injector Hubs.

Display Event Log information on PoE+ Managed Injector Hubs.

Figure 4-1-1: System Menu

4.1.1 System Information

Firmware Version

Display the PoE+ Managed Injector Hub current fan operation speed
status information.

Displays the PoE+ Managed Injector Hub current subnet mask
address.

This page displays system information as shown in Figure 4-1-2.

Figure 4-1-2: System Information Web Page

Device Information
Object Description

• Model Name Displays the PoE+ Managed Injector Hub model name.

• Hardware Versio n Displays the PoE+ Managed Injector Hub hardware version.

•

• Current Time Display the PoE+ Managed Injector Hub current time information.

• Running Time Display the PoE+ Managed Injector Hub operation time information.

• Fan Status

Table 4-1-1: Descriptions of the Device Information Objects Screen

LAN
Object Description

• MAC A ddress Displays the PoE+ Managed Injector Hub MAC address.

• Connection Type

• IP Address Displays the PoE+ Managed Injector Hub current IP address.

• Netmask

Displays the PoE+ Managed Injector Hub firmware version.

Displays the PoE+ Managed Injector Hub current IP connection type
information.

• Gateway Displays the PoE+ Managed Injector Hub current gateway address.

Table 4-1-2: Descriptions of the LAN Objects Screen

4.1.2 System Service

This page displays the system service status of the PoE+ Managed Injector Hub, the system service are

shown in Figure 4-1-3.

Figure 4-1-3: System Service Web Page

Service
Object Description

• State Displays the PoE+ Managed Injector Hub service state information.

• Service

• Detail Displays the PoE+ Managed Injector Hub service detail information.

Table 4-1-3: Descriptions of the Service Objects Screen

Secure Service
Object Description

• State Displays the PoE+ Managed Injector Hub service state information.

• Service

• Detail Displays the PoE+ Managed Injector Hub service detail information.

Table 4-1-4: Descriptions of the Secure Service Objects Screen

Displays the PoE+ Managed Injector Hub service type information.
DDNS Service and SNMP Service.

Displays the PoE+ Managed Injector Hub service type information.
Cybersecurity/SPI Firewall/MAC Filtering.

4.1.3 Connection Sta t us

The page will show the ARP Table, the connection status is shown in Figure 4-1-4.

Figure 4-1-4: Connection Status Web Page

ARP Table
Object Description

• IP Address Displays the PoE+ Managed Injector Hub IP Address Information.

• MAC A ddress Displays the PoE+ Managed Injector Hub MAC Address information.

• ARP Type Displays the PoE+ Managed Injector Hub ARP Type information.

Table 4-1-5: Descriptions of the ARP Table Objects Screen

4.1.4 SNMP

This page provides SNMP setting of the PoE+ Managed Injector Hub as shown in Figure 4-1-5.

Figure 4-1-5: SNMP Web Page Screen

SNMP
Object Description

SNMP

SNMP Versions

Read/Write Community

Engine ID

Disable or enable the SNMP function. The default configuration is

enabled.

Choose specific SNMP version.

The default configuration is SNMPv1, v2c.

Allows entering characters for SNMP Read/Write Community of the

PoE+ Managed Injector Hub.

This function with SNMP v1, v2c.v3.

SNMP v3 Security Level

SNMP v3 User Name
SNMP v3 Auth Protocol

SNMP v3 Auth Password
SNMP v3 Privacy

Protocol
SNMP v3 Privacy
Password

Table 4-1-6: Descriptions of the SNMP Objects Screen

System Identification
Object Description

System Name

System Description

System Location

System Contact

This function with SNMP v1, v2c.v3, the default configuration is

AuthPRiv.

This function with SNMP v1, v2c.v3.

This function with SNMP v1, v2c.v3, the default configuration is

MD5.

This function with SNMP v1, v2c.v3.

This function with SNMP v1, v2c.v3, the default configuration is

DES.

This function with SNMP v1, v2c.v3.

Allows entering characters for system name of the PoE+ Managed

Injector Hub.

Allows entering characters for system descrip of the PoE+ Managed

Injector Hub.

Allows entering characters for system location of the PoE+ Managed

Injector Hub.

Allows entering characters for system contact of the PoE+ Managed

Injector Hub.

Table 4-1-7: Descriptions of the SNMP System Identification Objects Screen

SNMP Trap Receiver Configuration
Object Description

SNMP Trap

SNMP Trap Destination 1
SNMP Trap Destination 2

Table 4-1-8: Descriptions of the SNMP Trap Receiver Configuration Objects Screen

Allows disable or enable SNMP trap function of the PoE+ Managed

Injector Hub.

Allows to send SNMP trap to an assigned workstation.

Allows to send SNMP trap to an assigned workstation.

4.1.5 NMS

The NMS provide NMS Controller and CloudViewer Server – Internet screens – is shown in Figure 4-1-6.

Figure 4-1-6: NMS Configuration Web Page Screen

NMS Configuration
Object Description

NMS

NMS Controller IP Address

Allow to choose NMS Controller or Cloudviewer Server, the

default is PLANET NMS Controller- LAN.

Display NMS Controller IP Address information.

Authorization Status

Table 4-1-9: Descriptions of the NMS Configuration Objects Screen

Indicates the status of connecting NMS Controller-LAN or

CloudViewer Server.

4.1.6 Remote Syslog

The Remote Syslog provides remote system log function, the screen shown in Figure 4-1-7.

Figure 4-1-7: Remote Syslog Web Page

Remote Syslog
Object Description

Enable

Syslog Server

Port Destination

Table 4-1-10: Descriptions of the Remote Syslog Objects Screen

Allows disable or enable Remote Syslog function of the

PoE+ Managed Injector Hub.

Input Syslog Server IP Address.

Input the Port Destination value and the available range is

1-65535.

4.1.7 Event Log

The Event log provides display system event log, the screen shown in Figure 4-1-8.

Figure 4-1-8: Event Log Web Page

Event Log
Object Description

Event Log

Table 4-1-11: Descriptions of the Event Log Objects Screen

Display Event Log information.

Clean all current event log information.

4.2 Network

Network

Object

Description

The Network function provides LAN, IPv6 and DDNS configuration of the PoE+ Managed Injector Hub as

shown in Figure 4-2-1.

Figure 4-2-1: Network Menu

LAN
IPv6
DDNS

Allows setting LAN interface.

Allows setting IPv6 interface.

Allows setting DDNS and PLANET DDNS.

4.2.1 LAN

This page is used to configure the parameters for local area network which connects to the LAN port of your

PoE+ Managed Injector Hub as shown in Figure 4-2-2. Here you may change the settings for IP address,

subnet mask, DNS, etc.

Figure 4-2-2: LAN Configuration Setup Web Page

LAN Configuration

Object

Description

Object Description

Connection Type

Provide Static and DHCP for IP connection type, the default is Static.

IP Address

Netmask Default is 255.255.255.0.
Gateway Default is 192.168.0.254.
Primary DNS Default is 8.8.8.8.

Secondary DNS Default is 8.8.4.4.
Second IP

Second IP Address Default is 0.0.0.0.
Second IP Netmask Default is 0.0.0.0.
Apply Settings
Cancel Settings

Table 4-2-1: Descriptions of the LAN Configuration Objects Screen

The LAN IP address of the PoE+ Managed Injector Hub and default

is 192.168.0.100.

Provide Disable and Enable for second IP, the default is Disable.

Save current configuration.

Ignore current configuration.

4.2.2 IPv6

This page is used to configure parameter for IPv6 internet network which connects to LAN port of the PoE+

Managed Injector Hub as shown in Figure 4-2-3. It allows you to enable IPv6 function and set up the

parameters of the PoE+ Managed Injector Hub’s LAN. In this setting you may change LAN connection type

and other settings.

Figure 4-2-3: IPv6-LAN Web Page

IPv6 - LAN

Type

IPv6 Address

Select IPv6 type either by using DHCP or Static.

Enter the IPv6 address.

Subnet Prefix Length

Enter the subnet prefix length.

Table 4-2-2: Descriptions of the IPv6 Configuration Objects Screen

4.2.3 DDNS

The PoE+ Managed Injector Hub 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 (http://www.planetddns.com

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-to-remember name you gave.

PLANET DDNS provides two types of DDNS services. One is PLANET DDNS and the other is PLANET Easy

DDNS as shown in Figure 4-2-4.

PLANET 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 register a domain as Mycam1.planetddns.com at PLANET DDNS

(http://www.planetddns.com

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

log in to the Web Management Interface of your devices, say, your PoE+ Managed Injector Hub, and check

the DDNS menu and just enable it. Yo u don’t need to go to http://www.planetddns.com

account. 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, if the PoE+ Managed

Injector Hub’s MAC address is A8-F7-E0-81-96-C9, it will be converted into pt8196c9.planetddns.com)

). Thus, you don't need to memorize the exact IP address but just the URL link:

) and set up the domain name of your choice.

to apply for a new

Figure 4-2-4: PLANET DDNS Configuration Web Page

DDNS Configuration
Object Description

DDNS Service

Interface

DDNS Type

Easy DDNS

By default, the DDNS service is disabled.

If user needs to enable the function, please set it as enable.

User is able to select the interface for DDNS service.

By default, the interface is LAN.

There are three options:

1. PLANET DDNS: Activate PLANET DDNS service.

2. DynDNS: Activate DynDNS service.

3. NOIP: Activate NOIP service.

Note that please first register with the DDNS service and set up the

domain name of your choice to begin using it.

When the PLANET DDNS service is activated, user is able to select

to enable or disable Easy DDNS.

When this function is enabled, DDNS hostname will appear

automatically. User doesn’t go t o http://www.planetddns.com

apply for a new account.

to

User Name

Password

Host Name

Interval

Connection Status

Table 4-2-3: Descriptions of the PLANET DDNS Configuration Objects Screen

The user name is used to log into DDNS service.

The password is used to log into DDNS service.

The host name as registered with your DDNS provider.

Set the update interval of the DDNS function.

Show the connection status of the DDNS function.

4.3 Security

Security

Object

Description

The Security menu provides Firewall, Access Filtering and other functions as shown in Figure 4-3-1. Please

refer to the following sections for the details.

Figure 4-3-1: Security Menu

Firewall
MAC Filtering
Certificates

Allows setting DoS (Denial of Service) protection as enable.

Allows setting MAC Filtering.

Allows download System CA Certificate.

4.3.1 Firewall

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 PoE+ Managed Injector Hub can prevent specific DoS attacks

as shown in Figure 4-3-2.

Figure 4-3-2: Firewall Protection Web Page

Firewall Protection
Object Description

The SPI Firewall prevents attack and improper access to network

SPI Firewall

Block SYN Flood

Block FIN Flood

Block UDP Flood

Block ICMP Flood

IP TearDrop

Ping Of Death

TCP packets with SYN
and FIN Bits set
TCP packets with FIN Bit
set but no ACK Bit set
TCP packets without Bits
set

resources.

The default configuration is enabled.

SYN Flood is a popular attack way. DoS and DDoS are TCP

protocols. Hackers like using this method to make a fake connection

that involves the CPU, memory, and so on.

The default configuration is enabled.

If the function is enabled, when the number of the current FIN

packets is beyond the set value, the PoE+ Managed Injector Hub will

start the blocking function immediately.

The default configuration is disabled.

If the function is enabled, when the number of the current

UPD-FLOOD packets is beyond the set value, the PoE+ Managed

Injector Hub will start the blocking function immediately.

The default configuration is disabled.

ICMP is kind of a pack of TCP/IP; its important function is to transfer

simple signal on the Internet. There are two normal attack ways

which hackers like to use, Ping of Death and Smurf attack.

The default configuration is disabled.

If the function is enabled, the PoE+ Managed Injector Hub will block

Teardrop attack that is targeting on TCP/IP fragmentation

reassembly codes.

If the function is enabled, the PoE+ Managed Injector Hub will block

Ping of Death attack that aims to disrupt a targeted machine by

sending a packet larger than the maximum allowable size causing

the target machine to freeze or crash.

Set the function as enable or disable.

Set the function as enable or disable.

Set the function as enable or disable.

HTTP Port

HTTPs Port
Te m p o rarily block when

login failed
IP blocking period

Blocked IP

Table 4-3-1: Descriptions of the Firewall Protection Objects Screen

The default is 80.

The default is 443.

The default is 0. (0 means no limit).

The default is 0. (0 means permanent blocking).

0.0.0.0.

4.3.2 MAC Filtering

System Certificates

Object

Description

Entries in this table are used to restrict certain types of data packets from your local network or Internet

through the PoE+ Managed Injector Hub. Use of such filters can be helpful in securing or restricting your local

network as shown in Figure 4-3-3.

Figure 4-3-3: MAC Filtering Web Page

MAC Filtering
Object Description

Set the function as enable or disable.

Enable MAC Filtering

Interface

MAC Address

Add

When the function is enabled, the PoE+ Managed Injector Hub will block

traffic of the MAC address on the list.

Select the function works on LAN. To block a LAN device’s MAC

address.

Input a MAC address you want to control, such as A8:F7:E0:00:06:62.

When you input a MAC address, please click the “Add” button to add it

into the list.

Table 4-3-2: Descriptions of the MAC Filtering Objects Screen

4.3.3 Certificates

This web page provides to download the certificates and shown in Figure 4-3-4.

Figure 4-3-4: System Certificates Web Page

Download

Table 4-3-3: Descriptions of the System Certificates Objects Screen

Press this button to download the system CA certificate file.

4.4 PoE

Model Name

PoE Budget

Auto power budget control by over temperature protection function

720 watts@0~39 degrees C

Auto power budget control by over temperature protection function

PoE

Object

Description

Allow to centralize management PoE power for providing
schedule.

alive.

The PoE menu provides PoE Configuration, PoE Status, PoE Schedule and PoE Alive Check as shown in

Figure 4-4-1. Please refer to the following sections for the details.

Figure 4-4-1: PoE Menu

PoE Configuration

PoE Status Display the current PoE usage.

PoE Shedule

PoE Alive Check

Allow to centralize management PoE power for PDs

Allow to centralize management PoE power for checking PDs

PoE Power Budget list for PoE+ Managed Injector Hub Series.

POE-1200G

POE-2400G

HPOE-1200G

HPOE-2400G

220 watts

440 watts@0~40 degrees C
400 watts@41~50degrees C

360 watts

670 watts@40~49 degrees C
620 watts@50 degrees C

4.4.1 PoE Configuration

This section provides PoE (Power over Ethernet) Configuration and PoE output status of PoE Injector Hub;

screen in Figure 4-4-2 appears. Table 4-4-1 describes the PoE Configuration object of PoE+ Managed

Injector Hub.

Figure 4-4-2: PoE Configuration Web Page

power is delivered.

C

C

C

C

Object Description

• Sy ste m PoE Admi n Mode

• Power Supply

• Power Limit Mode

• Over Temperature

Protection

• Smart Fan

Allows user to disable/enable PoE function.

Displays PoE power supply status.

Allows 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.
Classification: Based on port priority setting and device class where PoE

Prevent system from being too hot that may cause damage. When PoE unit

temperature rises over the temperature threshold value, PoE power budget

will be reduced.

Please refer to the table below for knowing the OTP level:

POE-1200G POE-2400G

HPOE-1200G HPOE-2400G

PSE > 70゜

OTP1 NA

PSE > 70゜

=> 400W

NA

=> 670W

PSE < 65゜

=> 720W

PSE > 80゜C

=> 620W

OTP2 NA NA NA

PSE < 75゜

=> 670W

Display Smart Fan operation status.

• Power A lloc ation

• Description

• PoE Function

• PoE Schedule

• Force Power

• Priority

Displays the current total power consumption status.

This 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 >.

Allows user to disable or enable per port PoE function.

Indicates the scheduled profile mode. Possible profiles are:

 Profile1
 Profile2
 Profile3
 Profile4

Provide to disable or enable PoE Force mode.

The force power function will directly deliver power over UTP cable.

Please be careful when using force power function and make sure the

remote device is PoE powered device (PD).

Allows user to set PoE port priority. There are 3 levels that could be

configured and they are Critical, High and Low. The Critical is the highest

priority and Low is the lowest priority.

This function is worked under Priority power limit mode only.

• Device Class

Displays 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]

• Power Used [W]

• Power Limit [W]

• Apply

Table 4-4-1: Descriptions of the PoE Configuration Objects Screen

Displays PoE device current.

Displays PoE device power consumption.

Allows user to custom-power for port. This function is worked under Total
Limit power limit mode. This function is also related to Power Mode. If

Power mode is 802.3af, then user can allocate to 15.4 watts at the

maximum; otherwise, user can allocate to 36 watts.

Press this button to take effect.

4.4.2 PoE Status

This page displays to per port PoE usage status, the screen in Figure 4-4-3 appears.

Figure 4-4-3: PoE Status Screenshot

The page includes the following fields:

PoE Status
Object Description
Port Number

Watt

Table 4-4-2: Descriptions of the PoE Status Objects Screen

Displays per port status.

Displays per port PoE usage.

4.4.3 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 PoE+ Managed Injector Hub 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 PoE+ Managed Injector Hub 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 PoE+ Managed Injector Hub 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.

The screen in Figure 4-4-4 appears.

Figure 4-4-4: PoE Schedule Screenshot

Please press Add 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:

PoE Schedule
Object Description
Profile

Week Day
Start Hour
Start Min
End Hour

End Min
Reboot Enable

Reboot Only

Reboot Hour
Reboot Min

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.

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.

Table 4-4-3: Descriptions of the PoE Schedule Objects Screen

4.4.4 PoE Alive Check

The PoE+ Managed Injector Hub can be configured to monitor connected PD’s status in real-time via ping

action. Once the PD stops working and without response, the PoE+ Managed Injector Hub is going to restart

PoE port power, and bring the PD back to work. It will greatly enhance the reliability and reduces administrator

management burden.

This page provides you with how to configure PD Alive Check. The screen in Figure 4-4-5 appears.

Figure 4-4-5: PD Alive Check Configuration Screenshot

The page includes the following fields:

function. By default, all ports are disabled.

PD Alive Check
Object Description
Mode

Allows user to enable or disable per port PD Alive Check

Remote PD IP Address

Interval Time (2~300s)

Retry Count (1~5)

Action

PD Reboot Time (5~180s)

This column allows 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

with the PoE+ Managed Injector Hub.

This column 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 2 seconds to 300 seconds.

This column allows user to set the number of times system

retries ping to PD.

For example, if we set count 2, it means that if system

retries ping to the PD and the PD doesn’t response

continuously, the PoE port will be reset.

Allows user to set which action will be applied if the PD is

without any response. The PoE+ Managed Injector Hub

Series offers the following 3 actions:

 PD Reboot: It means system will reset the PoE port

that is connected to the PD.

 PD Reboot & Alarm: It means system will reset the

PoE port and issue an alarm message via Syslog.

 Alarm: It means system will issue an alarm

message via Syslog.

This column allows user to set the PoE device rebooting

time as there are so many kinds of PoE devices on the

market and they have a different rebooting time.

The PD Alive-check is not a defining standard, so the PoE

device on the market doesn’t report reboot done information

to the PoE+ Managed Injector Hub. Thus, user has to make

sure how long the PD will take to finish booting, and then

set the time value to this column.

System is going to check the PD again according to the

reboot time. If you are not sure of the precise booting time,

we suggest you set it longer.

Table 4-4-4: Descriptions of the PD Alive Check Objects Screen

4.5 Maintenance

Maintenance

The Maintenance menu provides the following features for managing the system

Figure 4-5-1: Maintenance

Object Description

Administrator

Allows changing the login username and password.

Date & Time

Save/Restore
Configuration

Firmware Upgrade

Reboot/Reset

Auto Reboot

Diagnostics

Allows setting Date & Time function.

Export the PoE+ Managed Injector Hub’s configuration to local

storage.

Restore the PoE+ Managed Injector Hub’s configuration from local

storage.

Upgrade the firmware from local storage.

Reboot or reset the system.

Allows setting auto-reboot schedule.

Allows you to issue ICMP PING packets to troubleshoot IP.

4.5.1 Administrator

To ensure the PoE+ Managed Injector Hub's security is secure, you will be asked for your password when you
access the PoE+ Managed Injector Hub'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 4-5-2.

Figure 4-5-2: Administrator Web Page

Administrator
Object Description

Username

Input a new username.

Password

Confirm Password

Input a new password.

Input password again.

Table 4-5-1: Descriptions of the Administrator Objects Screen

4.5.2 Date and Time

This section assists you in setting the system time of the PoE+ Managed Injector Hub. You are able to either

select to set the time and date manually or automatically obtain the GMT time from Internet as shown in

Figure 4-5-3.

Figure 4-5-3: Date and Time Web Page

Data and Time

Save/Restoring Configuration

Object

Description

Object Description

Current Time

Time Zone Select

NTP Client Update

Show the current time.

User is able to set time and date manually.

Select the time zone of the country you are currently in. The PoE+

Managed Injector Hub will set its time based on your selection.

Once this function is enabled, PoE+ Managed Injector Hub will

automatically update current time from NTP server.

NTP Server

User may use the default NTP sever or input NTP server manually.

Table 4-5-2: Descriptions of the Date and Time Objects Screen

4.5.3 Saving/Restoring Configuration

This page shows the status of the configuration. You may save the setting file to either USB storage or PC

and load the setting file from USB storage or PC as Figure 4-5-4 is shown below:

■ Save Setting to PC

Configuration Export

Press the button to save setting file to PC.

Press the button to select the setting file, and then

Configuration Import

press the button to upload setting file from PC.

Table 4-5-3: Descriptions of the Save/Restore Objects Screen

Figure 4-5-4: Save/Restore Configuration

4.5.4 Firmware Upgrading

Object

This page provides the firmware upgrade of the PoE+ Managed Injector Hub as shown in Figure 4-5-5.

Figure 4-5-5: Firmware Upgrade Web Page

Firmware Upgrading

Choose File

Upgrade

Table 4-5-4: Descriptions of the Firmware Upgrade Objects Screen

Description

Press the button to select the firmware.

Press the button to upgrade firmware to system.

4.5.5 Reboot/Reset

Object

Object

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 as Figure 4-5-6 is shown below:

Figure 4-5-6: Reboot/Reset Web Page

Reboot/Reset

Description
Reboot
Reset
I'd like to keep the network
profiles.

Press the button to reboot system.

Press the button to restore all settings to factory default settings.

Check the box and then press the button to keep the

current network profiles and reset all other configurations to factory

defaults.

Table 4-5-5: Descriptions of the Reboot/Reset Objects Screen

4.5.6 Auto Reboot

This page enables the device to be auto rebooted from a specific time settings, the Web interface as Figure

4-5-7 is shown below:

Figure 4-5-7: Auto Reboot Web Page

Auto Reboot

Auto Reboot
Reboot Type
Time

Description

Disable or enable the Auto Reboot function.

Set the function type.

Select reboot time for clock.

Table 4-5-6: Descriptions of the Auto Reboot Objects Screen

4.5.7 Diagnostics

Diagnostics

The page allows you to issue ICMP PING packets to troubleshoot IP connectivity issues. After you press

“Ping”, 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 Ping web screen shown in Figure 4-5-8.

Figure 4-5-8: Ping Web Page

Object Description

Interface

Target Host

Number of Packets

Ping

Table 4-5-7: Descriptions of the Ping Objects Screen

Select an interface of the PoE+ Managed Injector Hub.

The destination IP Address or domain.

Set the number of packets that will be transmitted; the

maximum is 100.

The time of ping.

Figure 4-5-9: Trace Route Web Page

Trace Route

Object

Description

Target Host

Trace

Table 4-5-8: Descriptions of the Trace Route Objects Screen

Be sure the target IP address is within the same network subnet of the PoE+

Managed Injector Hub, or you have to set up the correct gateway IP address.

The destination IP Address or domain.

The time of ping.

5. Power over Ethernet Overview

What is PoE?

Based on the global standard IEEE 802.3af, PoE is a technology for wired Ethernet, the most widely installed local area

network technology adopted today. PoE allows the electrical power necessary for the operation of each end-device to be

carried by data cables rather than by separate power cords. New network applications, such as IP Cameras, VoIP

Phones, and Wireless Networking, can help enterprises improve productivity. It minimizes wires that must be used to

install the network for offering lower cost, and less power failures.

IEEE802.3af, also called Data Terminal equipment (DTE) power via Media dependent interface (MDI), is an international

standard to define the transmission for power over Ethernet. The IEEE 802.3af also defines two types of source

equipment: Mid-Span and End-Span.

 Mid-Span

Mid-Span device is placed between legacy switch and the powered device. Mid-Span taps the unused wire pairs 4/5 and

7/8 to carry power; the other four are for data transmission

 End-Span

End-Span device is directly connected with power device. End-Span could also tap the wire 1/2 and 3/6.

PoE system architecture

The specification of PoE typically requires two devices: the Powered Source Equipment (PSE) and the Powered Device

(PD). The PSE is either an End-Span or a Mid-Span, while the PD is a PoE-enabled terminal, such as IP Phones,

Wireless LAN, etc. Power can be delivered over data pairs or spare pairs of standard CAT-5e cabling.

How power is transferred through the cable

A standard Cat5e Ethernet cable has four twisted pairs, but only two of these are used for 10BASE-T, 100BASE-T and

1000BASE-T. The specification allows two options for using these cables for power as shown in Figure 5-1-1 and Figure

5-1-2.

The spare pairs are used. Figure 5-1-1 shows the pair on pins 4 and 5 are connected together and form the positive

supply, and the pair on pins 7 and 8 are connected and form the negative supply. (In fact, a late change to the spec allows

either polarity to be used).

Figure 5-1-1 - Power Supplied over the Spare Pins

The data pairs are used. Since Ethernet pairs are transformer coupled at each end, it is possible to apply DC power to the

center tap of the isolation transformer without upsetting the data transfer. In this mode of operation the pair on pins 3 and

6 and the pair on pins 1 and 2 can be of either polarity.

Figure 5-1-2 - Power Supplied over the Data Pins

When to install PoE?

Consider the following scenarios:

• You're planning to install the latest VoIP Phone system to minimize cabling building costs when your company moves

into new office next month.

• The company staff has been clamoring for a wireless access point in the picnic area behind the building so they can work

on their laptops through lunch, but the cost of electrical power to the outside is not affordable.

• Management asks for IP Surveillance Cameras and business access systems throughout the facility, but they would

rather avoid another electrician's payment.

6. The PoE Provision Process

While adding PoE support to networked devices is relatively painless, it should be realized that power cannot simply be

transferred over existing Cat5e cables. Without proper preparation, doing so may result in damage to devices that are not

designed to support provision of power over their network interfaces.

The PSE is the manager of the PoE process. At the beginning, only small voltage level is induced on the port's output till a

valid PD is detected during the Detection period. The PSE may choose to perform classification to estimate the amount of

power to be consumed by this PD. After a time-controlled start-up, the PSE begins supplying the 52V DC level to the PD

till it is physically or electrically disconnected. Upon disconnection, voltage and power shut down.

Since the PSE is responsible for the PoE process timing, it is the one generating the probing signals prior to operating the

PD and monitoring the various scenarios that may occur during operation.

All probing is done using voltage induction and current measurement in return.

1. Stages of powering up a PoE link

Stage Action

Detection

Classification

Startup

Normal operation

Volts specified

802.3af 802.3at

Measure whether powered device has the

correct signature resistance of 15–33 kΩ

Measure which power level class the

resistor indicates

Where the powered device will startup >42 >37.2 >38

Supply power to device 44-57 50-57 25.0–60.0

2.7-10.0 1.8–10.0

14.5-20.5 12.5–25.5

Volts managed

by chipset

6.1 Line Detection

Before power is applied, safety dictates that it must first be ensured that a valid PD is connected to the PSE's output. This

process is referred to as "line detection", and involves the PSE seeking a specific, 25 KΩ signature resistor. Detection of

this signature indicates that a valid PD is connected, and that provision of power to the device may commence.

The signature resistor lies in the PD's PoE front-end, isolated from the rest of the PD's circuitries till detection is certified.

6.2 Classification

Once a PD is detected, the PSE may optionally perform classification, to determine the maximal power a PD is to

consume. The PSE induces 15.5-25.5V DC, limited to 600 mA, for a period of 10 to 75 ms responded by a certain current

consumption by the PD, indicating its power class.

The PD is assigned to one of 5 classes: 0 (default class) indicates that full 15.4 watts should be provided, 1-3 indicate

various required power levels and 4 is instead of reserved has a power range of 12.95 – 25.5 watts. PDs that support

classification are assigned to class 0. Special care must be employed in the definition of class thresholds, as classification

may be affected by cable losses.

Classifying a PD according to its power consumption may assist a PoE system in optimizing its power distribution. Such a

system typically suffers from lack of power resources, so that efficient power management based on classification results

may reduce total system costs.

6.3 Start-up

Once line detection and optional classification stages are completed, the PSE must switch from low voltage to its full

voltage capacity (44-57 Volts) over a minimal amount of time (above 15 microseconds).

A gradual startup is required, as a sudden rise in voltage (reaching high frequencies) would introduce noise on the data

lines.

Once provision of power is initiated, it is common for inrush current to be experienced at the PSE port, due to the PD’s

input capacitance. A PD must be designed to cease inrush current consumption (of over 350 mA / 600mA) within 50 ms of

power provision startup.

6.4 Operation

During normal operation, the PSE provides 44-57 VDC, able to support a minimum of 15.4watt / 25.5-watt power.

Power Overloads

The IEEE 802.3af / IEEE 802.3at standard defines handling of overload conditions. In the event of an overload (a PD

drawing a higher power level than the allowed 12.95 watts / 25.5 watts), or an outright short circuit caused by a failure in

cabling or in the PD, the PSE must shut down power within 50 to 75 milliseconds, while limiting current drain during this

period to protect the cabling infrastructure. Immediate voltage drop is avoided to prevent shutdown due to random

fluctuations.

6.5 Power Disconnection Sce narios

The IEEE 802.3af / IEEE 802.3at standard requires that devices powered over Ethernet be disconnected safely (i.e.

power needs to be shut down within a short period of time following disconnection of a PD from an active port).

When a PD is disconnected, there is a danger that it will be replaced by a non-PoE-ready device while power is still on.

Imagine disconnecting a powered IP phone utilizing 52 VDC, and then inadvertently plugging the powered Ethernet cable

into a non-PoE notebook computer. What’s sure to follow is not a pretty picture.

The standard defines two means of disconnection, DC Disconnect and AC Disconnect, both of which provide the same

functionality - the PSE shutdowns power to a disconnected port within 300 to 400ms. The upper boundary is a physical

human limit for disconnecting one PD and reconnecting another.

DC Disconnect

DC Disconnect detection involves measurement of current. Naturally, a disconnected PD stops consuming current, which

can be inspected by the PSE. The PSE must therefore disconnect power within 300 to 400 ms from the current flow stop.

The lower time boundary is important to prevent shutdown due to random fluctuations.

AC Disconnect

This method is based on the fact that when a valid PD is connected to a port, the AC impedance measured on its

terminals is significantly lower than in the case of an open port (disconnected PD).

AC Disconnect detection involves the induction of low AC signal in addition to the 52 VDC operating voltage. The returned

AC signal amplitude is monitored by the PSE at the port terminals. During normal operation, the PD's relatively low

impedance lowers the returned AC signal while a sudden disconnection of this PD will cause a surge to the full AC signal

level and will indicate PD disconnection.

User Manual of POE-1200G/POE-2400G/HPOE-1200G/HPOE-2400G

APPENDIX A

A.1 MDI Settings

The Medium-Dependent Interface (MDI or RJ45) serves as the data/power interface between Ethernet

elements. As such, it has two optional connection methods to carry the power. Named Alternative A & B,

Table 1 details the two power feeding alternatives.

Pin Alternative A Alternative B

1 Vport Negative

2 Vport Negative

3 Vport Positive

4 Vport Positive

5 Vport Positive

6 Vport Positive

7 Vport Negative

8 Vport Negative

Table -1 Alternative Table

Delivering power through an RJ45 connector’s center tap (“Phantom Feeding”) guarantees that

bi-directional data flow is maintained, regardless of a module’s power status.

A.2 Power Device Classification Values

Class PD Current – Classification Period

[mA]

0 0 – 4 0.44 – 12.95 Default

1 9 – 12 0.44 – 3.84 Optional

2 17 -20 3.84 – 6.49 Optional

PD Power – Operation Period

[W]

Note

3 26 – 30 6.49 – 12.95 Optional

4 36 - 44 12.95 - 25 Optional

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User Manual of POE-1200G/POE-2400G/HPOE-1200G/HPOE-2400G

A.3 DATA OUT PoE Injector RJ 4 5 Port Pi n Assignments

PIN NO RJ45 SIGNAL ASSIGNMENT

1 Output Transmit Data +

2 Output Transmit Data -

3 Receive Data +

4 Power -

5 Power -

6 Receive Data -

7 Power +

8 Power +

RJ45 pin assignment of non-802.3af / 802.3at standard PD with PD
with Mid-span PoE Mid-span RJ45 assignment

Pin out of Cisco non-802.3af standard

PD

PIN NO SIGNAL

1 RX+

2 RX-

3 TX+

4 VCC-

5 VCC-

6 TX-

7 VCC+

8 VCC+

Before you power PD, please check whether the RJ45 connector pin assignment follows IEEE 802.3af /

Pin out of POE Mid-span

PIN NO SIGNAL

1 RX+

2 RX-

3 TX+

4 VCC-

5 VCC-

6 TX-

7 VCC+

8 VCC+

IEEE 802.3at standard; otherwise, you may need to change one of the RJ45 connector pin

assignments, which is attached with the UTP cable.

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