Telecommunications – Transmitter and receiver at same station – Radiotelephone equipment detail
Reexamination Certificate
2000-12-14
2004-06-15
Nguyen, Lee (Department: 2682)
Telecommunications
Transmitter and receiver at same station
Radiotelephone equipment detail
C165S159000, C165S244000, C361S695000
Reexamination Certificate
active
06751479
ABSTRACT:
NOTICE OF COPYRIGHT PROTECTION
A portion of the disclosure of this patent document and its figures contain material subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, but otherwise reserves all copyrights whatsoever.
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention generally relates to wireless communications and, more particularly, to heating and cooling radio base stations.
2. Description of the Related Art
Wireless communication has experienced explosive growth. In just a few years cellular telephone usage has soared, and growth continues as wireless Internet access improves. This explosive growth has revolutionized data and voice communication, and manufacturers are continually striving to improve wireless equipment to meet the explosive growth.
Radio base stations are one example of continuously improving wireless equipment. Radio base stations are self-contained enclosures that house transmitters, receivers, and other wireless communication equipment. While radio base stations were originally designed for indoor installations, explosive growth has forced manufacturers to design outdoor radio base stations. These outdoor radio base stations are large, so wireless service providers often seek installation sites on the roofs of buildings. Tall urban buildings provide better transmission and reception while hiding the often aesthetically-unpleasant radio base station.
These outdoor radio base stations, however, are prone to overheating. The roofs of urban buildings are very hot in the summer and very cold in the winter. If the wireless communication equipment is exposed to temperatures lying outside an operating range, the equipment may fail from thermal stress. Some radio base stations have heaters and air conditioners to keep the wireless communication equipment within the operating range. Even with air conditioning, however, light breezes can drastically affect the radio base stations. These breezes blow into the radio base station and frequently cause the wireless communication equipment to fail from overheating. When the wireless communication equipment fails, wireless service is interrupted. An interruption in service irritates customers, disrupts daily business activities, and reduces revenue for the service provider.
FIG. 1
shows the prior art problem that causes radio base stations to thermally fail.
FIG. 1
is a schematic drawing of a prior art radio base station
10
. The prior art radio base station
10
includes a cabinet
12
that houses wireless communication equipment (not shown for simplicity). An electric fan
14
is shown through a cutaway portion
16
in the cabinet
12
. The fan
14
is a component of a heating, ventilating, and air conditioning (HVAC) system that cools the wireless communication equipment (the complete HVAC system, for simplicity, is also not shown). The fan
14
is designed to exhaust air through one or more vents
18
in a hood
20
. The problem, however, is that breezes blow through the vents
18
and straight into the fan
14
. These breezes, as explained below, eventually cause the wireless communication equipment to fail.
Breezes reverse spin the fan
14
. Breezes flow through the hood
20
and into the fan
14
. If the fan
14
is not receiving electricity, the breezes spin the fan
14
in reverse. As the fan
14
free-spins in reverse, the fan
14
draws in warm air. When the HVAC system detects rising temperatures in the prior art radio base station
10
, an air conditioner turns on and sends alternating current to the fan
14
. The fan
14
, however, is already spinning in reverse due to the breeze. When alternating current is applied to the reverse-spinning fan
14
, the fan
14
does not change direction—fan
14
actually speeds up and continues to reverse spin. The fan
14
has a “squirrel-cage” design which permits the fan
14
to run in either direction. Although the air conditioner is operating, the fan
14
is spinning in reverse and drawing hot air into the air conditioner. The air conditioner quickly becomes ineffective, and the wireless communication equipment exceeds the maximum operating temperature. The prior art radio base station
10
then fails from thermal stress.
This prior art design creates another problem. Ambient air is contaminated with dust his and dirt. The direct flow path from the vents
18
to the fan
14
carries dust and dirt into the air conditioner. The fan
14
clogs and the cooling efficiency of the air conditioner reduces. Even if the HVAC system is filtered, the filter also clogs and obstructs air flow into the HVAC system. The direct flow path from the vents
18
to the fan
14
allows dust and dirt to cascade toward thermal stress failures.
There is, accordingly, a need for a radio base station that has a reduced rate of thermal stress failures, a radio base station that is less susceptible to dust and dirt infiltration, and, yet, a radio base station design that can resolve the prior art problems without extensive tooling or revisions.
BRIEF SUMMARY OF THE INVENTION
The aforementioned problems are minimized by a radio base station having an indirect air flow path. The design of this radio base station eliminates the direct air flow path from the vents to the fan. This indirect flow path substantially reduces the tendency of breezes to reverse-spin the fan. The indirect flow path also helps reduce infiltration of dust and dirt. The HVAC system is more efficient, so thermal stress failures are reduced. The indirect flow path is also quickly and inexpensively implemented in both new and existing radio base stations. The indirect flow path of the present invention reduces failures, improves customer satisfaction and service, and increases revenues for service providers.
The indirect flow path is achieved by relocating the vents. The present invention relocates the vents at approximately right angles to air flow through the fan. Regardless of from what direction breezes blow, the breezes will not encounter a direct path to the fan. The vents are arranged approximately perpendicular to air flow through the fan and, thus, an indirect path is achieved. This approximately perpendicular arrangement reduces reverse free-spinning in the fan.
The indirect path is also achieved by other vent and fan arrangements. The present invention contemplates any arrangement that reduces air from flowing directly into the fan. Whether the vents are arranged at (30 degrees (30°), forty five degrees (45°), sixty degrees (60°), eighty degrees (80°), or any arrangement in between, the air flows indirectly to the fan. This indirect flow path reduces failures in the wireless communication equipment.
REFERENCES:
patent: 4691767 (1987-09-01), Tanaka et al.
BellSouth Intellectual Property Corporation
Cantor & Colburn LLP
Nguyen Lee
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