WilsonPro DAS Passive Hybrid Active User Guide

DAS Passive Hybrid Active

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Specifications

• Product Name: WilsonPro Passive DAS, WilsonPro Hybrid DAS,
  WilsonPro Active DAS

• Usage: Varies based on building size and connectivity
  needs

• Deployment Speed: Fast

• Part of WilsonPro Connected Architecture

• Power Efficiency: Varies by model

• Country of Origin: USA

Product Usage Instructions

WilsonPro Passive DAS

Best suited for buildings or facilities up to 75K sq ft with
modern building materials affecting wireless connectivity. Offers
fast, precise optimization of connectivity.

WilsonPro Hybrid DAS

Ideal for buildings up to 500K sq ft where consistent wireless
connectivity over greater distances is needed. Provides power and
agility for changing connectivity needs.

WilsonPro Active DAS

Designed for buildings over 500K sq ft with high device density
and coverage requirements. Delivers powerful connectivity at
critical scale.

Frequently Asked Questions (FAQ)

How do WilsonPro solutions work?

The WilsonPro solutions are part of the WilsonPro Connected
Architecture, a modular and scalable foundation that prepares for
future bands and technologies.

What are the key attributes of WilsonPro products?

WilsonPro products are proven and trusted, engineered and
assembled in the USA. They are power-efficient, consuming less
energy compared to competitors, and are designed for optimal
wireless coverage and capacity.

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WilsonPro Comparison Guide

WHAT DOES IT OFFER? WHEN IS IT USED?

WILSONPRO PASSIVE DAS
Fast, precise optimization of connectivity.

WILSONPRO HYBRID DAS
Power and agility for changing connectivity needs.

In buildings or facilities up to 75K sq ft. where modern building materials, areas in the building, or tower locations are diminishing wireless connectivity.

In buildings or facilities up to 500K sq ft where wireless connectivity needs to be optimized and consistent over greater distances.

WILSONPRO ACTIVE DAS
Powerful connectivity at critical scale.
In buildings or facilities over 500K sq ft with device density and coverage needs for optimized and highest quality wireless signal.

SPEED OF DEPLOYMENT
PART OF THE WILSONPRO CONNECTED ARCHITECTURE
ACCELERATES CONNECTIVITY

Fast
Open design, modularity, and proprietary technology make our passive DAS solutions a great place to start your wireless optimization path.
The fastest path to wireless optimization. FCC pre-approved core components ready to use off the shelf for fast installation.

Fast
Open design, modularity and proprietary technology to mix and match bands and be ready for new technology.
Accelerates time to wireless coverage and capacity. Preapproved core components for quicker install and fast, precise optimization of wireless connectivity with RF over fiber coverage, capacity and low attenuation.

Longer
Open design, modularity and proprietary technology for the greatest flexibility in adding new bands and technologies.
Optimal coverage with the fastest addition of new technology. Optimal wireless capacity, coverage and quality with the ability to add any future technology from 150MHz to 5GHz.

SIMPLIFIES OPTIMIZATION

Simplifies the process of precise optimization. The ability to optimize wideband, with the flexibility to channelize all in one unit, for power and space saving coverage.

Simplifies the process of wireless optimization for growth. Easy to add on bands to immediately optimize and provide coverage, while establishing fiber and components for the future.

The fewest components for the most bands, WilsonPro Active DAS delivers ultra- wideband using the same 5 components, regardless of country or network standards or future technology.

IMPORTANT ATTRIBUTES

PROVEN AND TRUSTED

Engineered and assembled in the USA, ensuring trusted components and fewer security concerns.

Made in the USA, plus the proven precision of BDA amplification and the quality of fiber for proven optimization and coverage.

Made in the USA, plus a direct wired connection with signal source, using fiber optics for unlimited capacity and scale. You can trust the use of RF over fiber to better resist interception.

POWER EFFICIENT

Consumes 35X less power for 5X more bandwidth than the nearest competitor.

Consumes 10X less energy than nearest competitor. Exceptionally energy- efficient, maximizing power and gains without wasteful use of electrical power.

Fewer components save 80% space and 17% cooling energy. Additional frequencies added without new hardware, reduces manufacturing, shipping, and installation waste.

How do they work?
The WilsonPro solutions are part of the WilsonPro Connected Architecture. The Connected Architecture is a modular, scalable foundation that makes it easy to be ready for future bands and technologies.

COAX FIBER FIBER + POWER

MULTITOWER TARGETING

UP TO 16 ANTENNAS PER BDA

BANDS HIGH
MID
LOW

Bands 4, 5, 12, 13, & 25

Band 14

Band 71

C-Band

4330

140I

710I

1398

SU PPO RTED SQU ARE FOOTAGE

40K

50K

60K

70K

UP TO

90K

100K

100k

UP TO 16 REMOTE UNITS PER BDA

UP TO 64 REMOTE UNITS PER PRIMARY HUB

Remote Units

200k

Remote Units

Secondary Hubs

150MHz to 2.7GHz
5000 Primary Hub

Secondary Hubs

300k

400k

Optional

UP TO 500K

OVER 500K

150MHz to 5GHz 8000 Primary Hub
POI: Conditions Signal

2 WAY RADIOS

DIGITAL SIGNAL SOURCE CARRIER BASE STATION SMALL CELL FETMOCELL PRIVATE NETWORK BDA

600k

700k

800k

900k

WilsonPro Passive DAS
· A Passive Distributed Antenna System (DAS) uses outside antennas to bring signals into a bi-directional amplifier (BDA)
· Amplified signals are distributed through coaxial cable and inside antennas
· Can amplify all signals for all carriers, or by channel
· Easily add additional bands, including 14, 71, and C-Band

WilsonPro Hybrid DAS
· Uses outside antennas to bring signals into a primary hub
· Amplified signals are sent through fiber to secondary hubs and up to 16 remote units per BDA
· Amplified signals are distributed through inside antennas
· Radio frequency (RF) over fiber has less signal loss over longer distances and better protection from interception

WilsonPro Active DAS
· Uses signal from any direct radio frequency (RF) source to feed into a primary hub
· Amplified signals are sent through fiber to secondary hubs and up to 64 remote units per primary hub
· Amplified signals are distributed through inside antennas
· Direct radio frequency (RF) source and RF over fiber enable secure signal distribution at critical scale
· Fewest components and the addition of all usable bands and public safety

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