10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter
  • 10/100/1000Mbps media converter

10/100/1000Mbps media converter

The GL media converters were specifically designed to offer network designers the tools for migration from copper based Gigabit to fiber based Gigabit Ethernet. Now, migration or expansion of existing networks can be achieved with minimum cost and complexity. The converters are completely transparent when installed so the network performs exactly the way it would do normally-only now, it can migrate both copper and fiber mediums. This flexibility in cabling allows network managers to put fiber cables anywhere with in a network without changing the arrangement of copper based Gigabit segments. Their compact size allows the converter to be easily deployed in any narrow desktop location or used in wall-mount installation to save space.

Category:

Fiber optic transceiver

Product Details

Product Overview

The GL media converters were specifically designed to offer network designers the tools for migration from copper based Gigabit to fiber based Gigabit Ethernet. Now, migration or expansion of existing networks can be achieved with minimum cost and complexity. The converters are completely transparent when installed so the network performs exactly the way it would do normally-only now, it can migrate both copper and fiber mediums. This flexibility in cabling allows network managers to put fiber cables anywhere with in a network without changing the arrangement of copper based Gigabit segments. Their compact size allows the converter to be easily deployed in any narrow desktop location or used in wall-mount installation to save space.

 

Main Features

Complies with IEEE 802.3ab 1000Base-T and IEEE 802.3z 1000Base-SX/LX standard 

Auto MDI/MDI-X support on RJ-45 port 

Auto polarity correction on RJ-45 port 

Local and Remote loopback test for first time installation and troubleshooting 

Low power consumption 

Extends distances up to 220m for multi-mode SX (80km with long haul single mode) under full duplex mode 

Compatible with other Gigabit 1000Base-T/SX/LX devices 

Status LEDs for easy monitoring of device status 

External power supply 

FCC Class A & CE approved

 

Product specifications

Type

3630N

3830N

2300G

2003SFG

Hardware specifications

standard

IEEE802.3IEEE802.3uIEEE802.3XIEEE802.3abIEEE802.3z

Backplane bandwidth

1 GE port     1 1000M fiber port 

1 GE port     1 1000M fiber port

2 GE port       1 1000M fiber port

1 GE port          2 1000M fiber port

MAC Address table

SC/FC/ST

Port type

Multi-mode Double ffiber220mFiber size 62.5/125μm/550m(Fiber size 50/125μm)

Single-mode Double fiber10/20/40/60/80/100/120Km

single-mode Single fiber10/20/40/60/80Km

Twisted-pair cable100m

Power

5V2A

110-240V

5V2A

5V2A

power consumption

5W

5W

6W

6W

Physical size

118*70*27mm

183*132*30mm

118*70*27mm

118*70*27mm

weight

0.19kg

0.50kg

0.20kg

0.20kg

Suitable temperature

0-50℃(Working environment),-20-70℃(Storage temperature

Suitable humidity

 5%-90% No condensation (work environment)

 

Ordering Information:

 

1000M RJ45 port

1000M Fiber port

POWER

 

GL-3630N

1

1

5VDC

external power

GL-3830N

1

1

100-240VAC

Internally power

GL-2300G

2

1

5VDC

external power

GL-2003SFG

1

2

5VDC

external power

GL-3630NS

1

1SFP

5VDC

external power

GL-3830NS

1

1SFP

100-240VAC

Internally power

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FAQ

Listed below are answers to our most commonly asked questions. Don't see your question?Contact our customer service team. We would be glad to assist you.

What is an optical network terminal (ONT)? How does it differ from a regular modem?

An optical network unit (ONU) is an end device in a fiber optic network that converts optical signals transmitted via fiber optics into electrical signals (for use by routers, computers, and other devices), and vice versa.

What is the architecture of a fiber optic network (PON)?

Fiber optic networks typically use a passive optical network (PON) architecture, which is divided into three layers

What are the functions of the PON port and LAN port on an optical network terminal (ONT)?

PON port (fiber optic interface): Connects to the fiber optic cable entering the home and receives optical signals (usually SC/APC interface, blue square head).

Why does the optical network terminal need to register LOID/SN?

LOID (Logical Identifier) or SN (Serial Number) is the credential used by operators to bind user identities, and is used for OLT authentication of optical modems.

Optical modem dialing vs. router dialing: which is better?

Ordinary users: Optical modem dialing. Game/NAS users: Switch to bridge mode and dial up using a high-performance router.

How to determine whether the fiber optic signal is normal?

Check the optical modem indicator lights Log in to the optical modem management interface: Check the optical power (unit: dBm)

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