The Gigabit PoE Media Converters transparently connect copper to
fiber while providing Power over Ethernet ( PoE ) to standards-based PoE
and PoE+ compliant devices such as IP cameras, VoIP phones and wireless
access points. The PoE Media Converters are classified as Power
Sourcing Equipment (PSE). While using standard UTP cables that carry
Ethernet data, the PoE media converters can also provide power to one or
two Powered Devices (PDs). This PoE media converter supports both the
IEEE 802.3af PoE standard (15.4W of power) and the IEEE 802.3at PoE+
standard (30W of power).
Compufox 10/100/1000 PoE Ethernet to
Fiber Converters provide an economical path to extend the distance of an
existing network with fiber cabling. At the same time they function as
PoE injectors to power devices like IP phones, video conferencing
equipment, IP cameras and Wi-Fi devices over copper UTP cabling.
Multi-port PoE media converters enable a variety of flexible network
designs. They can feature single or dual RJ-45 ports to power one or two
PD’s per converter and single or dual fiber ports.
The Gigabit
PoE Media Converter is a Single-Port, End-Span IEEE 802.3at High Power
over Ethernet converter designed specifically to satisfy the growing
demand for higher power required network equipment such as PTZ (Pan,
Tilt & Zoom) network cameras, PTZ speed dome, color touch-screen
VoIP telephones, multi-channel (IEEE 802.11a / b / g / n) wireless LAN
access points and other network devices that need higher power to
function normally. The High Power over Ethernet converter series is an
ideal solution to delivering data and power to network devices directly
via the RJ45 Port interface without the need for installing extra power
outlets and electrical cabling.
Features
- 10/100/1000Base-T to 100/1000Base-X Fiber
- Supplies IEEE 802.3 PoE & PoE+ PSE power
- Compatible with legacy pre-standard PoE devices
- Multiport models: 8, 16 or 24 ports
- Fix fiber ports or empty slot for Cisco and other industry standard SFPs
- Provides DC 48V power over RJ45 Ethernet cable to devices with Ethernet port
- Supports a maximum of 40 watts output power
- Support PD detection and PD classification
- Support super large video traffic
- Auto-negotiation support on RJ-45 port
- Auto-negotiation of duplex(HDX/FDX) on RJ-45 port
- Auto MDI/MDI-X support on RJ-45 port
- Supports jumbo frame size 9K bytes
- Status LED for easy monitoring of device status
- FCC Class A & CE approved
Specifications
Interface
|
1 x Ethernet + PoE & PoE+ port (RJ45)
10/100/1000Base-Tx
1 x Optical port (1x9) 1000Base-Fx
|
Optical Port
|
Available for 1310nm and 1550nm Single mode,
and 850nm 1310nm Multi mode
Transfer Distance: up to 120km
Connectors: SC, FC, ST or LC optional
Fiber core: 8.3μm, 8.7μm, 9μm and 10μm on single-mode fiber; 50, 62.5 and
100μm on multi-mode fiber
|
Ethernet Port
|
Available speed: 10/100/1000Mbps Connectors: RJ-45 Connector; MDI/MDI-X connectiona uto-sensing
|
Standard
|
IEEE802.3 (10Base-T)
IEEE802.3u(100Base-TX/FX)
IEEE802.3ab (1000Base-T)
IEEE802.3z (1000Base-SX/LX/CX/T)
IEEE802.3x (Flow control)
IEEE802.3af (PoE)
IEEE802.3at (PoE+)
|
LED Indicators
|
Power Status, Speed Status, FX Link/Act, TX
Link/Act, PoE
|
PoE Specification
|
Power Output: PoE 48V DC
PoE Power Supply type: End-Span
Power Pin Assignment: 1/2(+), 3/6(-)
PoE Power Budget: Each port provides max 40W feed power
|
Environmental Limits
|
Operating Temperature: -40°C to 85°C
Storage Temperature: -40°C to 85°C
Operating Humidity: 10% to 95% RH (non-condensing)
Storage Humidity: 5% to 95% RH (non-condensing)
|
Agency Approvals
|
FCC Part 15 of Class A & CE approved
|
Applications
1, Connect 10/100/1000 IP Cameras to Gigabit Backbone
Extend
the reach to IP cameras using fiber media converters. Security cameras
are typically installed in remote locations throughout a facility. For
cameras that are in the ceiling or other inaccessible areas like
rooftops, light poles, along fences, pipelines and transit routes, the
cost of bringing electrical power to each camera is eliminated by
powering the equipment through the UTP cable using a PoE media
converter. For cameras with Pan-Tilt-Zoom ( PTZ ) that may require
higher power, this PoE+ media converter can supply up to 30 watts of
power. PoE+ may also be required for cameras used in cold environments
that feature de-icers and blowers.
Fiber
is run from an existing data closet to an area with access to power. A
PoE Media Converter can be powered by either 48vDC or standard 100 to
240 AC power. The media converter is attached to the power supply and
the fiber cable. Copper (UTP or STP cable) Ethernet can be extended
another 100 meters to the IP camera. The PoE Media Converter is
converting the data from fiber to copper, adding power and transmitting
it to the security camera.
To
simplify cabling, multiport PoE media converters enable chaining, with a
fiber uplink port and a fiber downlink port, of the fiber between media
converters ( also known as a bus architecture ).
A
second option is to have redundant fiber links for installations
requiring fiber facility protection. There is an active fiber port and a
protection fiber port that can support a fiber failure switchover of
less than 50 milliseconds. The PoE+ media converter supplies power to
the camera, and has power protection from an Uninterruptible Power
Supply (UPS) battery back-up. In the event of a fiber cut and a loss of
power, the camera continues to send data on the protection link.
2, Connect 10/100/1000 Wireless Access Points to Gigabit Backbone
Extend
the reach to wireless access points ( AP ) using fiber media
converters. When a company deploys a wireless network in their office or
large warehouse, APs need to be set up throughout the facility to
ensure complete coverage for reliability. The network manager will
likely need to extend further than the 100 meters allowed by copper
cable to reach many of the APs.
For
APs that are in the ceiling or other inaccessible areas, PoE media
converters can also provide standard PoE power including pre-standard
power for those access points that were deployed prior to ratification
IEEE 802.3af. For wireless access points as those containing dual radios
requiring more than 15.4 watts of power, PoE+ models delivering up to
30 watts are also available.
Fiber
is run from an existing data closet to an area with access to power. A
PoE Media Converter can be powered by either 48vDC or standard 100 to
240 AC power. The media converter is attached to the power supply and
the fiber cable. Copper (UTP or STP cable) Ethernet can be extended
another 100 meters to the Wireless Access Point. The PoE Media
Converter is converting the data from fiber to copper, adding power and
transmitting it to the AP.
To
simplify cabling, multiport PoE media converters enable chaining, with a
fiber uplink port and a fiber downlink port, of the fiber between media
converters ( also known as a bus architecture ).
A
second option is to have redundant fiber links for installations
requiring fiber facility protection. There is an active fiber port and a
protection fiber port that can support a fiber failure switchover of
less than 50 milliseconds. The PoE+ media converter supplies power to
the camera, and has power protection from an Uninterruptible Power
Supply (UPS) battery back-up. In the event of a fiber cut and a loss of
power, the camera continues to send data on the protection link.
3, Connect 10/100/1000 workstations and VoIP Phones to a Gigabit Backbone
Extend
the reach to your workstation and VoIP phones using fiber media
converters. PoE media converters can also provide standard PoE power
including pre-standard power for those VoIP phones that were deployed
prior to ratification of the IEEE 802.3af standard.
Fiber
is run from an existing data closet to an area with access to power. A
PoE Media Converter can be powered by either 48vDC or standard 100 to
240 AC power. The media converter is attached to the power supply and
the fiber cable. Copper (UTP or STP cable) Ethernet can be extended
another 100 meters to the VoIP phone. The PoE Media Converter is
converting the data from fiber to copper, adding power and transmitting
it to the VoIP phone.