User Manual
Table Of Contents
- Warranties
- Hardware
- Software Warranty
- Notwithstanding the foregoing, Corning shall have no obligation under the Software Warranty if the
- Returns
- Limitations of Liabilities
- Reporting Defects
- Warnings and Admonishments
- RF Safety
- Compliance with RF safety requirements:
- Power requirements for DC Inputs
- Laser Safety
- Care of Fiber Optic Connectors
- Regulatory Compliance Information
- Standards and Certifications
- Licensee Contact Information
- About this Guide
- Additional Relevant Documents
- List of Acronyms
- Table of Contents
- 1.1 Key Features and Capabilities
- 1.2 System Architecture
- 1.3 System Monitoring and Management
- 1.4 HX Unit Description
- 1.5 External Passive Module (EPM)
- 1.6 Site Considerations
- 1.7 Environmental
- 1.8 Installation Requirements
- 1.9 Fiber Optic Requirements
- 1.10 RF Coaxial Cable Guidelines
- 1.11 Antenna Specifications and Guidelines
- 1.12 Grounding Requirement
- 1.13 Manual Handling
- 1.14 Installation Requirements
- 1.15 Unpacking and Inspection
- 1.16 Mounting
- 1.17 Connections
- 1.18 Verifying Normal Operation
- Appendix A: System Specifications
- RF Parameters
- Supported Services
- RF Parameters per Service Antenna Port
- RF Parameters for Diplexer External Input Port
- Physical Specifications
- Standards and Approvals
- Appendix B: Ordering Information
- MobileAccessHX WCS Remote Units
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CMA-318-AEN
Page 13
• Introduction
MobileAccessHX WCS is a mid-power, remote solution designed to be integrated into existing MobileAccess1000
(MA1000) and MobileAccess2000 (MA2000) Distributed Antenna Systems (DAS) already deployed in the field. It
is a fiber fed, compact unit which provides support for the WCS 2300 MHz band and is designed to complement
the MA1000/MA2000 and other MobileAccessHX flavors while enhancing RF open space coverage for large-
scale public venues such as campuses, stadiums, convention centers, hotels, airports and train stations.
Using low-loss fiber optic cabling, remote units can cover distances of up to 12.75 mi (2 km) from the BTS signal
sources at the headend. HX WCS requires minimum addition of hardware to the headend (WCS BTSC) and
utilizes existing fiber and antenna overlay. HX WCS MIMO takes full advantage of MIMO technology by using
spatial multiplexing to deliver higher spectral efficiency and preventing the degradation of quality while
significantly increasing throughput on the same spectrum.
HX WCS Figure 1-1