If the units have an unobstructed line of sight, this laser network can
provide instant, high-quality, highly reliable communications at a
standard distance of up to 2km*.(in case of DT-120)
* For DT-130 and DT-150, the standard distance is up to 1 km.
For DT-110, the standard distance is up to 0.5 km
Longer transmission can be achieved but this is a function of weather conditions
and acceptable link availability. Please see further information in the "Canobeam
Q & A" section.
Provides high-quality, reliable wireless
communications of up to a standard of 2km*
As a world leader in optical design and laser transmission technology,
Canon has been able to develop a group of optical lenses that are
optimally designed for use in data transmission equipment.
Optimized optical performance
The optical beam's narrow footprint makes it virtually impossible
to tap into, allowing for a highly secured point to point wireless
transmission.
High security
Since construction is avoided, the cost of installing a laser network is
considerably lower than installing fiber optic cable, including operating
costs due to simple routine maintenance.
Installation and operating costs are much lower than
installing fiber optic cable
The DT-130's and DT-150's 3R function is used to normalize the
signal waveform with Gigabit class transmissions. This is in order
to permit relay transmissions without deterioration of signal
quality between buildings that are more than 1km apart or that do
not provide a good line of sight.
3R Function(Re-shaping, Re-timing, Re-generating)
with DT-130 and DT-150
The DT-100 series can handle a wide range of data transfer speeds
from 25Mbps to an ultra-fast 1.485Gbps.
The user can select the transfer speed according to the type of
network in which the unit will be installed.
Model Name
Data Transfer Speed
DT-110
25Mbps – 156Mbps
DT-120
25Mbps – 156Mbps
DT-130
1.25Gbps
DT-150
1.485Gbps, 1.485/1.001Gbps, 270Mbps
Accommodates a wide range of data transfer speeds
The DT-100 series is equipped with Canon's latest Auto Tracking
function that adjusts the laser axis to compensate for slight building
movement due to temperature variations, or vibration due to wind and
other factors. A CPU calculates the point of maximum light input and
controls the laser axis appropriately.
Auto Tracking provides stable communications
The optical beam axis will deviate with slight building movement.
FSO without Auto Tracking
The system will correct errors in the optical
beam axis caused with slight building movement.
DT-100 series with Auto Tracking