LigoDLB 6-90ac

The LigoDLB 6 Series—an extension of the time-tested LigoDLB line of wireless data transfer devices—empowers users
to deliver superb connectivity over 6GHz frequencies. The 6GHz band provides more leg room for all types of wireless

networks, allowing users to find minimally crowded channels, experience less noise and interference, and achieve greater

range and throughput.

Equipped with a 750MHz QCA 9563 CPU, a QCA 9882
radio, and 64MB RAM/16MB Flash Memory, the LigoDLB

6ac brings efficiency to the next level.

The state-of-the-art RF design with an integrated 15dBi

antenna delivers great output power, improves range, and

enables high-capacity transmission over 256-QAM.

+500Mbps of throughput—the result of a powerful

hardware platform with an 802.11ac technology-based

radio and the LigoWave iPoll 3 Proprietary Protocol.

COPYRIGHT ©2021 LIGOWAVEInnovative Mounting Bracket
The adjustable mounting bracket is very easy to assemble

and install. It consists of two easy-to-connect parts that

allow tilting and turning the device up, down, left, and

right when installing on a pole.

Quality of Service

The LigoDLB series is equipped with Quality of Service—a

technology that prioritizes pre-tagged traffic based

on type to ensure seamlessness and efficiency when

delivering mission-critical data.

QoS sorts through four types of data: network

management, voice, video, and data. Each type is

assigned a priority level, meaning that certain data will be

preferred and given more attention in the network during

data transmission.

LigoDLB 6 devices provide QoS with L2 (CoS)/L3 (ToS/

DSCP) and makes use of the weighted round robin (WRR)

algorithm during the distribution of data, which makes

sure that all types of data are sent in some proportional

amount without packet loss.

iPoll 3: Enhanced Performance

Protocol

LigoWave’s iPoll 3™ PTMP proprietary protocol is an

innovative solution, eliminating transmission congestion

and close-cluster interference created in wireless PTMP

installations.

It works by having a DLB base station poll all connected

DLB CPE within the network, after which the base station

sends a data frame and a token to one CPE, signifying that

it can now send a data frame back to the base station. The

base station then waits for that one CPE to send a data

frame, and only having successfully received it, moves on

to poll all CPE and to perform the same process again.

The iPoll smart polling technology handles the activity of

all connected equipment to ensure transmission efficiency

by having DLB CPE that require less airtime listed as low

activity or idle and having CPE that generate more traffic

assigned to the active list.

This way, iPoll provides improved latency, avoids data

traffic collisions, and allows more CPE to be connected to

the base station simultaneously

Quality of Service
The LigoDLB series is equipped with Quality of Service—a

technology that prioritizes pre-tagged traffic based

on type to ensure seamlessness and efficiency when

delivering mission-critical data.

QoS sorts through four types of data: network

management, voice, video, and data. Each type is

assigned a priority level, meaning that certain data will be

preferred and given more attention in the network during

data transmission.

LigoDLB 6 devices provide QoS with L2 (CoS)/L3 (ToS/

DSCP) and makes use of the weighted round robin (WRR)

algorithm during the distribution of data, which makes

sure that all types of data are sent in some proportional

amount without packet loss.

Comparer
Catégories : ,

Description

Hightlights:

Distance Recommendations PTMP Mode
LigoDLB 6-90ac
5km/ 3.11mi
Wireless

WLAN Standard IEEE 802.11a/n/ac, iPoll 3

Radio Mode 2×2 MIMO

Radio Frequency Band 6GHz Models: 5.9–6.4GHz

Transmit Power Up to 30dBm (Country Dependent)

Channel Size 5, 10, 20, 40, 80MHz

Modulation Schemes 802.11a/n: OFDM (64-QAM, 16-QAM, QPSK, BPSK)

802.11ac: OFDM (256-QAM, 64-QAM, 16-QAM, QPSK, BPSK)

Data Rates 802.11ac @ 40MHz: 400, 360, 300, 270, 240, 180, 120, 90, 60, 30Mbps

802.11ac @ 80MHz: 866, 780, 650, 585, 520, 390, 260, 195, 130, 65Mbps

Error Correction FEC, LDPC

Duplexing Scheme Time Division Duplex

40MHz
Modulation, Mbps 400 360 300 270 240 180 120 90 60 30
Tx Power, dBm
23 24 25 26 27 28 28 29 29 30
Rx Sensitivity, dBm
-70 -72 -76 -78 -80 -84 -87 -92 -94 -95
80MHz
Modulation, Mbps 866 780 650 585 520 390 260 195 130 65
Tx Power, dBm
23 24 25 26 27 28 28 29 29 30
Rx Sensitivity, dBm
-64 -66 -70 -72 -74 -78 -81 -85 -88 -90
Antenna

Type Integrated Dual-Polarized 90° Sector Antenna

Gain 18dBi

Wired

Interface 10/100/1000 Base-T, RJ45

Physical

Dimensions Length 380mm (14.96”), Width 100mm (3.93”), Height 35mm (1.38”)

Weight 0.460g (1.01lb)

Mounting Pole Mounting Bracket

Power

Power Supply 24VDC Passive PoE (AC to 24VDC Adapter Included)

Power Source 100–240VAC

Max Power Consumption 10W

Environmental

Operating Temperature –40°C (–40°F) ~ +65°C (+149°F)

Humidity 0~90% (Non-Condensing)

Management
System Monitoring SNMP v3, Syslog, Web UI, Infinity Controller

Configuration Web UI, Infinity Controller

Regulatory

Certification IC/CE

Antenna Specifications

Frequency Range 5.85–6.45GHz
Gain
18dBi
Polarization
Dual-Linear
Cross-Pol Isolation
24dB
VSWR
<1.7
Azimuth Beamwidth (H-pol)
90°
Azimuth Beamwidth (V-pol)
90°
Elevation Beamwidth
20°

Brand info