icon indicia are provided on input, output and plug-in power processing units to permit proper matching of plug-in units with each other and with the input and output power processing units in a power distribution system. The indicia are in a co-ordinated matrix format with input icons on a designated chroma background to identify input voltages and output icons on a second designated chroma background to identify output voltages. icons and background chroma on the plug-in power processing units are coordinated with related icons and background chroma at the same matrix position on other plug-in units and/or the input and output units to assure the compatibility of all the units. A craftsman inserting a plug-in unit onto a shelf of the power chassis need merely compare the unit's icon and chroma background indicia with the input, output, or other unit's icons and associated chroma background indicia to be assured of inserting the correct plug-in unit into the particular shelf.

Patent
   RE37592
Priority
Mar 18 1994
Filed
Jul 07 1999
Issued
Mar 19 2002
Expiry
Mar 18 2014
Assg.orig
Entity
Large
4
5
all paid
0. 14. An identification system for a power processing unit couplable to a backplane of a power processing system, comprising:
a label attached to the power processing unit; and
a compatibility matrix, located on the label, that contains an indicium designating at least one operational characteristic of the power processing unit to facilitate proper placement of the power processing unit in the power processing system.
6. An identification system for selecting compatible components for use in a power plant system having a plurality of power processing components, comprising:
a label attached to each of said power processing components;
a compatibility matrix on each of said labels; and
indicia within each of said compatibility matrices designating operational characteristics of said power processing components, whereby said compatible components are easily selected by comparison of said indicia within like positions of each of said compatibility matrices.
0. 20. For use with a power processing unit couplable to a backplane of a power processing system, a method for positioning the power processing unit in the power processing system, comprising:
determining an operational characteristic of the power processing unit;
attaching a label to the power processing unit, the label having a compatibility matrix that contains an indicium designating the operational characteristic of the power processing unit; and
inserting the power processing unit in the power processing system based on the compatibility matrix.
12. A power plant employing an identification system for selecting one or more compatible power processing components for use in said power plant, said power plant comprising:
a label attached to each of said power processing components;
a compatibility matrix on each of said labels; and
indicia within each of said compatibility matrices designating operational characteristics of said power processing components, whereby said compatible power processing components are easily selected by comparison of said indicia within like positions of each of said compatibility matrices.
9. A power chassis having a plurality of plug-in power processing units, comprising:
indicia affixed to each of said plug-in power processing units, said indicia displayed in a coordinated matrix format with an input icon on a first designated chroma background to identify input voltages of said plug-in power processing units and an output icon on a second designated chroma background to identify output voltages of said plug-in power processing units, whereby comparison of said indicia on one of each of said plug-in power processing units with said indicia on adjacent ones of said plug-in power processing units facilitates proper selection of a compatible plug-in power processing unit.
3. An identification scheme for enabling proper matching of the electrical specifications of a plurality of plug-in power processing units in a power chassis, including:
indicia affixed to each of said plug-in power processing units, said indicia displayed in a coordinated matrix format with an input icon on a first designated chroma background to identify input voltages and an output icon on a second designated chroma background to identify output voltages,
whereby comparison of said indicia on each of said plug-in power processing units with said indicia on adjacent ones of said plug-in power processing units facilitates proper selection of a compatible plug-in power processing unit.
5. An identification system for selecting a compatible plug-in power processing unit for use in a power plant system having an input power processing unit and an output power processing unit, comprising:
a label attached to each of said power processing units;
compatibility matrix on each of said labels; and
indicia within a first position in each of said compatibility matrix designating the compatibility of said plug-in power processing unit with said input unit and indicia within a second position in each of said compatibility matrix designating the compatibility of said plug-in power processing unit with said output unit,
said compatibility being designated by common indicia within each of said first and second positions in each of said compatibility matrix on each of said power processing units.
0. 26. For use in a power processing system that receives power from a power source, an input power processing unit, couplable to a backplane of the power processing system, that receives the power from the power source and processes the power for delivery to at least one intermediate power processing unit via the backplane, the input power processing unit, comprising:
a label attached to the input power processing unit; and
a compatibility matrix, located on the label, that contains an indicium designating an operational characteristic of the input power processing unit, the indicium of the input power processing unit comparable to an indicium of a compatibility matrix on the at least one intermediate power processing unit to facilitate proper placement of the input power processing unit in the power processing system.
10. A power processing system having an input power processing unit, an output power processing unit, and a plurality of slots for receiving plug-in power processing units, said power processing system comprising:
a label attached to each of said power processing units;
a compatibility matrix on each of said labels; and
indicia within a first position in each of said compatibility matrices designating the compatibility of said plug-in power processing unit with said input unit and indicia within a second position in each of said compatibility matrices designating the compatibility of said plug-in power processing unit with said output unit, whereby the compatibility of each of said power processing units is designated by common indicia within each of said first and second positions in each of said compatibility matrices on each of said power processing units.
0. 36. For use in a power processing system that receives power from a power source and processes the power for delivery to a load, the power processing system having an input power processing unit and at least one intermediate power processing unit couplable to a backplane of the power processing system, an output power processing unit that receives power from the intermediate power processing unit via the backplane and delivers the power to the load, comprising:
a label attached to the output power processing unit; and
a compatibility matrix, located on the label, that contains an indicium designating an operational characteristic of the output power processing unit, the indicium of the output power processing unit comparable to an indicium of a compatibility matrix on the at least one intermediate power processing unit to facilitate proper placement of the output power processing unit in the power processing system.
0. 31. For use in a power processing system that receives power from a power source and processes the power for delivery to a load, the power processing system having an input power processing unit and an output power processing unit couplable to a backplane of the power processing system, an intermediate power processing unit that receives power from the input power processing unit, develops processed power therefrom and delivers the processed power to the output power processing unit via the backplane, comprising:
a label attached to the intermediate power processing unit; and
a compatibility matrix, located on the label, that contains first and second indicia designating first and second operational characteristics, respectively, of the intermediate power processing unit, the first indicium comparable to an indicium of a compatibility matrix on the input power processing unit and the second indicium comparable to an indicium of a compatibility matrix on the output power processing unit to facilitate proper placement of the intermediate power processing unit in the power processing system.
1. A power plant, comprising:
a supporting infrastructure including a shelf for accepting a plurality of modular power processing circuits;
an input distribution unit;
an output distribution unit;
a plurality of intermediate power processing units arranged in a linear series and electrically connected intermediate the input distribution unit and the output distribution unit in order to process power supplied from the input distribution unit and deliver power to the output distribution unit;
the input distribution unit including means for accepting power from a power source and further including a first identification indicia providing an indication of an output voltage supplied to the plurality of intermediate power processing units by a label having a first radiant energy frequency visually displaying a first color in a first specific matrix position;
the output distribution unit including means for distributing power to a load and further including a second identification indicia providing an indication of an appropriate input voltage to be supplied to it by the plurality of intermediate power processing units by a label having a second radiant energy frequency visually displaying a second color in a second specific matrix position;
identification indicia associated with each of the intermediate power processing units, including;
a third identification indicia providing an indication of an acceptable input voltage accepted from the input distribution unit by including the first radiant energy frequency visually displaying the first color in the first specific matrix position, wherein a match between the voltage from the input distribution unit and the acceptable input voltage is indicated by an identity of the radiant energy frequency displayed; and
the third identification indicia providing an indication of an output voltage of the intermediate power processing unit supplied to the output distribution unit by including the second radiant energy frequency visually displaying the second color in the second specific matrix position, wherein a match between the output voltage of the intermediate distribution unit is indicated by an identity of the radiant energy frequency.
2. A power plant as recited in claim 1, further comprising;
a first icon associated with the acceptable input voltage for each of said plurality of intermediate processing units and appearing on the first and third identification indicia and a second icon associated with the voltage acceptable to the output distribution unit and appearing on the second and third identification indicia.
4. An identification scheme for enabling proper electrical specification matching of plug-in power units to an input power unit and an output power unit as claimed in claim 3;
the input icon comprising an arrow entering a circle and the output icon comprising an arrow emerging from a circle.
7. The identification system as recited in claim 5 wherein said indicia is a graphical icon or chroma.
8. The identification system as recited in claim 6 wherein said indicia is a graphical icon or chroma.
11. The power processing system as recited in claim 10 wherein said indicia is a graphical icon or chroma.
13. The power plant as recited in claim 12 wherein said indicia is a graphical icon or chroma.
0. 15. The identification system as recited in claim 14 wherein the power processing system includes a plurality of power processing units having respective labels and compatibility matrixes with indicium, respective indicium of each of the plurality of power processing units designating at least one operational characteristic thereof to facilitate proper placement of each of the plurality of power processing units in the power processing system.
0. 16. The identification system as recited in claim 14 wherein the power processing system further includes a second power processing unit, the second power processing unit, comprising:
a second label, attached to the second power processing unit, and
a second compatibility matrix, located on the second label, that contains a second indicium designating at least one operational characteristic of the second power processing unit, the second indicium being compared to the indicium to facilitate proper placement of the second power processing unit with respect to the power processing unit in the proper processing system.
0. 17. The identification system as recited in claim 14 wherein the indicium indicates a voltage of the power processing unit.
0. 18. The identification system as recited in claim 14 wherein the compatibility matrix comprises a graphical icon or a chroma.
0. 19. The identification system as recited in claim 14 wherein the power processing unit is locatable in a plug-in station of the power processing system.
0. 21. The method as recited in claim 20 wherein the power processing system includes a plurality of power processing units, further comprising:
determining an operational characteristic of each of the plurality power processing units;
attaching a label to each of the plurality of power processing units, the respective labels having a compatibility matrix that contains an indicium designating the operational characteristic of each of the respective plurality of power processing units; and
positioning each of the plurality of power processing units in the power processing system based on the respective compatibility matrixes.
0. 22. The method as recited in claim 20 wherein the power processing system further includes a second power processing unit, further comprising:
determining an operational characteristic of the second power processing unit;
attaching a second label to the second power processing unit, the second label having a compatibility matrix that contains an indicium designating the operational characteristic of the second power processing unit; and
orienting the second power processing unit in proper relation to the first power processing unit based on the compatibility matrixes.
0. 23. The method as recited in claim 20 wherein the act of determining includes determining a voltage rating of the power processing unit and the indicium indicates the voltage rating.
0. 24. The method as recited in claim 20 wherein the compatibility matrix comprises a graphical icon or a chroma.
0. 25. The method as recited in claim 20 wherein the act of inserting further comprises inserting the power processing unit into a plug-in station of the power processing system.
0. 27. The input power processing unit as recited in claim 26 wherein a location of the indicium associated with the input power processing unit corresponds to a location of the indicium associated with the at least one intermediate power processing unit.
0. 28. The input power processing unit as recited in claim 26 wherein the indicium indicates a voltage supplied to the at least one intermediate power processing unit.
0. 29. The input power processing unit as recited in claim 26 wherein the compatibility matrix comprises a graphical icon or a chroma.
0. 30. The input power processing unit as recited in claim 26 wherein the label comprises an input icon having an arrow entering a circle.
0. 32. The intermediate power processing unit as recited in claim 31 wherein a location of the first indicium associated with the intermediate power processing unit corresponds to a location of the indicium associated with the input power processing unit and a location of the second indicium associated with the intermediate power processing unit corresponds to a location of the indicium associated with the output power processing unit.
0. 33. The intermediate power processing unit as recited in claim 31 wherein the first indicium provides an indication of a voltage supplied by the input power processing unit to the intermediate power processing unit and the second indicium provides an indication of a voltage supplied by the intermediate power processing unit to the output power processing unit.
0. 34. The intermediate power processing unit as recited in claim 31 wherein the compatibility matrix comprises at least one graphical icon or chroma.
0. 35. The intermediate power processing unit as recited in claim 31 wherein the label comprises an input icon having an arrow entering a circle and an output icon having an arrow emerging from a circle.
0. 37. The output power processing unit as recited in claim 36 wherein a location of the indicium associated with the output power processing unit corresponds to a location of the indicium associated with the at least one intermediate power processing unit.
0. 38. The output power processing unit as recited in claim 36 wherein the indicium indicates a voltage supplied to the output power processing unit.
0. 39. The output power processing unit as recited in claim 36 wherein the compatibility matrix comprises a graphical icon or a chroma.
0. 40. The output power processing unit as recited in claim 36 wherein the label comprises an output icon having an arrow emerging from a circle.

This invention relates to a power distribution system having a plurality of differing plug-in units for processing power and in particular to icon indicia attached to the plug-in units to facilitate insertion into plug-in stations included in a support chassis connected to a back plane of the power distribution system.

Power distribution systems normally can accommodate a variety of plug-in units which plug into various back planes and enable the distribution of various voltage and current levels of power. Given a particular power distribution scheme, the plug-in power units used must function in harmony with one another. This means that they must be properly selected for addition to the backplane. These selections are normally made by a crafts person who is familiar with the requirements of the plug-in units. It is not uncommon for an incorrect unit to be plugged in due to time and other pressures causing plug-in unit preselection to be made incorrectly. This may be due to confusing markings on the plug-in units or failure to understand the proper unit needed for a particular power distribution scheme.

Therefore, icon and background chroma (i.e. color) indicia are provided to facilitate proper matching of plug-in units in a power processing system.

In an illustrative embodiment, the indicia are in a coordinated matrix format with unique graphical icons on a first chroma background to identify the input voltage and/or current, and further unique graphical icons on a second chroma background to identify the output voltage and/or current. Indicia on plug-in units are coordinated with related indicia on other units to assure the compatibility of all units within the power processing system.

A craftsperson inserting a unit into a power distribution system need merely compare the unit's icon and chroma indicia with the indicia of adjacent units to be assured of inserting the correct plug-in unit.

FIG. 1 is a pictorial schematic of a power system cabinet including a plurality of plug-in units which operate in concert to process power;

FIG. 2 is a frontal view of one of the shelves of the cabinet of FIG. 1 showing the faces of the plug-in units and the input and output units of the shelf;

FIG. 3 is a label for an output unit of the power system cabinet;

FIG. 4 is a label for a plug-in power processing unit for insertion on the shelf of the power system cabinet; and

FIG. 5 is a label for an input unit of the power system cabinet.

A power processing system chassis or cabinet 100 as shown in the FIG. 1 includes a plurality of power processing units 101, 102, 103 which slide into a shelf of the cabinet and connect to a back plane at the rear of the shelf. Power processing units 102 and 103 at the end of the shelf provide power processing and inter connection to a power source and to equipment to be powered. One of the plug-in power processing units 101 is shown prior to being plugged into the shelf and consequent connection to the backplane. The back plane electrically connects the plug-in units 101 into the electrical system between an input power processing unit and an output power processing unit 103, whereby the plug-in power processing units 101 are operative to provide processing of power between the input power processing unit 102 and the output power processing unit 103. As such, the plug-in power processing units 101 must be compatible with the electrical specifications of the power processing units 102 and 103 at the opposing ends of the shelves.

To insure compatibility in selection of the plug-in power processing units 101 to other plug-in units and to the end input and output power processing units 102, 103, all units are marked with indicia by way of icons and background chroma, associated with the icon, that insure that craft personal select the proper plug-in units to place on the shelf of the chassis. Each input power processing unit 102 and output power processing unit 103 has identifying icon and background chroma indicia on the labels 112 and 113, respectively, while each of the plug-in power processing units 101 has a label 111 that includes identifying icons and background chroma indicia.

The nature of the indicia marking is illustrated in the FIG. 2 which depicts a frontal view of the shelf of FIG. 1 and the individual units with the labels and associated indicia. Each label is comprised of at least an icon, a background chroma having a distinct frequency of reflected light, and alphanumeric information that provides an operational designation of the unit. The input power processing unit 102 has an identification label 112 that identifies its purpose and power/voltage ratings. The output power processing unit 103 similarly has an identification label that identifies its purpose and power/voltage ratings power processing. Each of the plug-in units 101 connects to a backplane in the power cabinet 100 and operates to process power received from the input power processing unit 102 and deliver the processed power to the output power processing unit 103.

Exemplary labels are shown in detail in the FIGS. 3, 4 and 5. The label 112 of the input power unit 102 is shown in the FIG. 5. An exemplary output power unit 103 label 113 is shown in FIG. 3 and an exemplary label 111 for a plug-in power processing unit 101 is shown in the FIG. 4.

An exemplary input power processing unit 102 label 112, shown in FIG. 5, includes an input icon 122 identifying it as an input circuit. Associated with the icon 122 is a matrix of information in which the icon is replicated as part of a matrix tabular format which includes the icon 132 on a background of a first chroma with a first radiant energy frequency (i.e. color) in one of the matrix positions. Immediately below the icon 132 is a designation of the input voltage and below that the designation "input wiring".

An exemplary output power processing unit 103 label 113, shown in FIG. 3, includes an output icon 123 identifying it as an output circuit. Associated with the icon 123 is a matrix of information in which the icon is replicated as part of a tabular matrix format which includes the icon 133 on a background of a second chroma with a second radiant energy frequency (i.e. second color) in one of the matrix positions. Immediately below the icon 133 is a designation of the output voltage and below that the designation "output wiring."

An exemplary plug-in power processing unit 101 label as shown in the FIG. 4 includes the designation "converter" in a matrix setting. Above it on the left is an input icon 121, on a chroma background keyed to the input voltage unit's rating and below it the numerical voltage ring. The input icon 121 is on the left, as is the input unit 102 as shown in FIG. 2. An output icon 124 is positioned to the right, as is the output unit 103 as shown in the FIG. 2, and below it is the numerical output voltage rating for the plug-in converter unit to which the icon 124 chroma background is keyed. As is apparent, units may be properly matched by reference to identical icon designations in identical matrix positions, by reference to identical chroma background in identical matrix positions, by comparison of numerical designations, or by combinations of the above. The specific position of indicia in the matrix matches the same indicia in the matrix of another unit to which it is compatible. In the matter of neutral back ground chroma in a specific position, the unit is preferably compatible with another unit having any chroma in that position.

A craftsman inserting units onto a shelf of the power housing need merely compare the common icon designations and/or related chroma background of a selected unit 102, output unit 103, or other unit's with the input and output unit icons and associated background chroma to be assured of inserting the correct plug-in unit into the particular shelf.

Alden, Tor Andrew, Fontana, Edward Clark, Somdahl, Sonja K.

Patent Priority Assignee Title
7542268, Mar 17 2006 EATON INTELLIGENT POWER LIMITED Modular electronic systems and methods using flexible power distribution unit interface
8145327, Mar 13 2009 SOLSAVER, LLC Method and apparatus for implementing a consumer-configurable modular electrical system
8941976, Jan 25 2011 Western Digital Technologies, Inc. Configurable powerline Ethernet adapter and power supply
RE39220, May 11 1994 Genetic Applications, LLC Peptide-mediated gene transfer
Patent Priority Assignee Title
3394287,
4738632, Feb 06 1986 Siemens Aktiengesellschaft Electrical assembly with modular carriers for signal processing modules
5043847, May 21 1984 Siemens Aktiengesellschaft Box shaped electrical assembly
5095403, Mar 08 1990 , Low voltage switchboard
5253140, Mar 12 1988 Fanuc Ltd. Connector unit for input/output module of programmable controller having disengagement lever
////
Executed onAssignorAssigneeConveyanceFrameReelDoc
Feb 28 2008LINEAGE OVERSEAS CORP Lineage Power CorporationASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS 0205820184 pdf
Feb 28 2008Tyco Electronics Logistics AGLINEAGE OVERSEAS CORP ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS 0206090580 pdf
Nov 21 2008Lineage Power CorporationWELLS FARGO FOOTHILL, LLC, AS AGENTSECURITY AGREEMENT0218760066 pdf
Feb 28 2011Wells Fargo Capital Finance, LLCLineage Power CorporationPATENT RELEASE AND REASSIGNMENT0279340566 pdf
Date Maintenance Fee Events
Jan 10 2005M1552: Payment of Maintenance Fee, 8th Year, Large Entity.
Jan 31 2005ASPN: Payor Number Assigned.
Dec 19 2008M1553: Payment of Maintenance Fee, 12th Year, Large Entity.


Date Maintenance Schedule
Mar 19 20054 years fee payment window open
Sep 19 20056 months grace period start (w surcharge)
Mar 19 2006patent expiry (for year 4)
Mar 19 20082 years to revive unintentionally abandoned end. (for year 4)
Mar 19 20098 years fee payment window open
Sep 19 20096 months grace period start (w surcharge)
Mar 19 2010patent expiry (for year 8)
Mar 19 20122 years to revive unintentionally abandoned end. (for year 8)
Mar 19 201312 years fee payment window open
Sep 19 20136 months grace period start (w surcharge)
Mar 19 2014patent expiry (for year 12)
Mar 19 20162 years to revive unintentionally abandoned end. (for year 12)