Wave transmission lines and networks – Coupling networks – Nonreciprocal gyromagnetic type
Reexamination Certificate
2000-08-10
2001-11-13
Riley, Shawn (Department: 2838)
Wave transmission lines and networks
Coupling networks
Nonreciprocal gyromagnetic type
C375S219000, C375S220000
Reexamination Certificate
active
06317012
ABSTRACT:
TECHNICAL FIELD
The present invention relates to the distribution of electrical power from power supplies to downstream devices. More specifically, the present invention relates to the distribution of electrical power in media converter systems.
BACKGROUND
Media converter systems are used in data networks to convert signal transmission from one media, such as twisted pair copper, to another media such as fiber optics. Media converter systems include a power supply and one or more media converters. The media converter performs the conversion of signal transmission. Media converters receive the data signal through one media and output the data signal through another. The media converter is an active device and requires a supply voltage.
A power supply is used to provide operating voltage to the media converters in a media converter system. As shown in
FIG. 1
, conventional power distribution systems utilize a centralized power supply. A standard voltage V
in
is provided to a central power supply
102
at input
104
. V
in
is typically an AC voltage such as the 60 Hz 115 volt (VAC) standard but can be other voltages or even DC. The media converter operates on 5 volts DC (VDC). Therefore, the standard line voltage V
in
must be converted before being applied to the downstream media converter. The centralized power supply
102
converts V
in
into a usable voltage and provides several DC outputs
106
,
108
, and
110
that may be different. The output voltages are fed or bussed to downstream devices such as media converters.
Centralized power distribution systems suffer from several drawbacks. Because V
in
must be converted to the usable voltage before transmission, the current supplied from the power supply through the transmission lines is the total current consumption used by all of the downstream devices which is inefficient because of I
2
R losses. The transmission lines must be selected so that the maximum current rating is not exceeded, and this leads to a lack of system flexibility.
Also, governmental certification requirements require that the downstream devices be at or below a certain voltage to be classified as a low voltage device not subject to UL/CSA safety testing. Avoiding a non-low voltage rating allows the device to be much cheaper. If the device is configured to operate at a relatively high voltage that allows low current transmission, the device may not be classifiable as a low voltage device and will become more expensive as a result.
Also, because V
in
is converted directly to the usable voltage by the centralized power supply, if downstream devices require differing voltages, then the centralized power supply must have multiple outputs supplying the differing voltages as shown in FIG.
1
. Power supply complexity is increased to provide the differing voltages, and flexibility of the system is decreased because downstream devices requiring voltages other than that provided by the power supply cannot be easily added.
If many devices are linked to the centralized power supply and its current sourcing limits have been reached, redundancy cannot be added to provide a greater current sourcing limit without adding another centralized power supply and routing its outputs to some of the downstream devices previously linked to the initial power supply. This inability to be made redundant also poses a problem when the initial power supply fails. Because there is no redundancy, no back up power is available to instantaneously handle the current demand previously addressed by the initial power supply.
Furthermore, in some centralized power supply systems, the centralized power supply outputs an AC voltage or the AC line voltage is simply distributed to power supplies at the downstream devices. In systems where the informational signals must be transmitted in proximity to the power transmission lines, the AC voltage in the transmission lines may introduce unwanted characteristics into the informational signal. Therefore, in such centralized power supply systems, the transmission lines must be isolated from the informational signals.
SUMMARY
The present invention addresses issues including the problems discussed above by providing a distributed power supply architecture to provide a usable voltage to downstream media converters. The input voltage is converted to at least one intermediate voltage for transmission. The intermediate voltage is then converted to the usable voltage for the media converter. The intermediate voltage allows the current in the transmission line to be reduced relative to the current that is drawn by the media converters. The intermediate voltage can also be supplied at a value below the low voltage device threshold. The intermediate voltage is preferably DC, thereby allowing informational signals to be transmitted in close proximity to the transmission lines without signal interference. Redundant devices for generating the intermediate voltage may be linked through a bus to permit swapping of power supplies during operation and to provide additional current in reserve. The interfaces to the bus may be made to connect to either the power supply or the power distribution module allowing flexible module positioning.
The present invention is embodied in a method for distributing power in a media converter system. The method involves receiving an input voltage into a first converter and converting the input voltage to an intermediate DC voltage. Transferring the intermediate DC voltage to a remotely located second converter and converting the intermediate DC voltage to an output voltage are also performed.
The present invention is also embodied in an apparatus for distributing electrical power in a media converter system. The apparatus includes at least one first converter that converts an input voltage to an intermediate DC voltage. At least one second converter is included to convert the intermediate DC voltage to an output DC voltage, and the second converter(s) are located remotely from the first converter(s). The apparatus also includes at least one electrical conductor electrically linking the first converter(s) to the second converter(s).
REFERENCES:
patent: 5799040 (1998-08-01), Lau
patent: 5896417 (1999-04-01), Lau
ADC Telecommunications Inc.
Merchant & Gould
Riley Shawn
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