The present disclosure generally relates to lamps and, more particularly, to a lamp plug providing enhanced functionality to the lamp.
Although the presently disclosed embodiments will find application in a wide variety of lamp applications, it is instructive to review the trailer marker lamp application. Trailer manufacturers have designed rows of marker lamps located on trailers, such as commercial semi trailers to name just one non-limiting example, for appearance. In some cases, trailer manufacturers wish to flash one or more of these marker lamps when the vehicle operator activates the turn or hazard function flashes. To enable this, dual intensity marker lamps have been developed. The low intensity (or minor) function meets the marker lamp photometric requirements, and the high intensity (or major) function is brighter. Alternating activation of the low and high intensity functions causes the marker lamp to exhibit a flashing appearance.
These dual intensity marker lamps are more expensive to manufacture, require a second part number for the customer (i.e. a part number that is different than that used for the single intensity marker lamp), and have three terminals or wires in the lamp (minor, major and ground). Typically, the design goal for such dual intensity marker lamps is as much intensity difference between the minor and major function as possible, which results in a lower intensity minor function—or a dimmer marker than a standard single intensity marker lamp. Some trailer designers have placed an entire row of marker lamps along the side of a trailer. Using a dual intensity marker lamp in such a row of single intensity marker lamps results in one lamp that does not exactly match the others in intensity, even when all are being operated with the lower intensity minor function. This results in a non-uniform, undesirable appearance.
Trailer manufacturers and designers would prefer a flashing solution that uses standard single intensity marker lamps. These single intensity marker lamps have two terminals or wires in the lamp, namely power and ground.
Additionally, it is desirable that any solution to this problem also minimize or eliminate changes necessary to the vehicle wiring harness.
In some of the presently disclosed embodiments, a plug, into which a standard lamp may be inserted, contains electronics integrally molded therein in order to provide enhanced functionality to the standard lamp without requiring electronics to be incorporated into the wiring harness.
In some embodiments, an adapter for a lamp on a vehicle includes a housing containing a logic circuit operative to implement an exclusive OR (XOR) logic function, at least one wiring harness connector coupled to the logic circuit and configured to connect the logic circuit to a wiring harness of a vehicle, and at least one lamp connector coupled to the logic circuit and configured to connect the logic circuit to a lamp.
In some embodiments, an adapter for a lamp on a vehicle includes a housing containing a circuit configured to connect a two-wire lamp to a three-wire wiring harness and the housing is configured for positioning between a lamp assembly and a surface of a vehicle.
In other embodiments, an adapter for lamps on motor vehicles includes a harness that connects a standard lamp to a wiring harness of a vehicle and contains an overmolded circuit, wherein the circuit modifies an incoming signal from the wiring harness of the vehicle to add more functions to the standard lamp.
In some embodiments, a circuit is overmolded in an adapter that fits under a standard lamp, wherein the adapter is designed to fit the standard terminals of the lamp and an existing wiring harness, and wherein the circuit modifies the incoming signal from the wiring harness to add more functions to the standard lamp.
By using the presently disclosed lamp plug embodiments, trailer manufacturers can use standard marker lamps in auxiliary lamp locations and incorporate enhanced functionality into the lamps, lowering their overall costs. Other embodiments are also disclosed.
For the purposes of promoting an understanding of the principles of the invention, reference will now be made to the embodiment illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the invention is thereby intended, and alterations and modifications in the illustrated device, and further applications of the principles of the invention as illustrated therein are herein contemplated as would normally occur to one skilled in the art to which the invention relates.
An exclusive OR (XOR) logic circuit provides a voltage to its output if any one of the inputs receives a voltage. If the inputs to the XOR circuit are all high or all low, there is no output. In one embodiment, single intensity marker lamps that the trailer designer wishes to flash can be connected to a lamp driver employing an exclusive OR (XOR) circuit as disclosed herein. Using this driver, all of the marker lamps in a row can be of the same style, but one lamp can be flashed in the row of marker lamps. In some embodiments, if all of the marker lamps are on, the lamp being driven by the XOR driver circuit will flash out of sequence with the turn signal flash. If all of the marker lamps are off, the lamp being driven by the XOR driver circuit will flash in sequence with the turn signal flash.
If an XOR logic circuit 10 is placed between a standard single intensity marker lamp 12 and the vehicular wiring harness 14 that drives the marker lamp 12, as shown in
When neither the marker function wire 16 nor turn function wire 18 is active (i.e., no operating voltage is present on either wire) the lamp 12 is off. When both the marker function wire 16 and turn function wire 18 are active (i.e., an operating voltage is present on both wires), the lamp 12 is off. If either (but not both) of the marker function wire 16 or turn function wire 18 are active (i.e., an operating voltage is present on one but not both of the wires), the lamp 12 is on.
To describe the operation another way, if the marker function wire 16 is off, the lamp 12 will flash in sequence with the other lamps flashing on the trailer. If the marker function wire 16 is on, the lamp 12 will flash out of sequence with the other lamps flashing on the trailer.
The XOR logic circuit 10 may be located in any convenient location, inside a lamp or outside the lamp.
Note that transistor 104 can be any type of switching device that has a switching control input that is operative to selectively conductively couple a power input terminal to an output terminal, such as a metal oxide semiconductor field effect transistor (MOSFET), or other type of transistor or switching device, and the resistances selected so that the switching control input voltage will turn on and off at the proper inputs.
By using the presently disclosed lamp driver embodiments, trailer manufacturers can use standard single intensity marker lamps in auxiliary lamp locations and combine the flash and marker functions in one lamp, increasing conspicuity and lowering their overall costs.
Lamp Plugs with Enhanced Functionality
Trailer manufacturers have designed standard marker lamps on trailers for appearance. Standard marker lamps have two terminals or wires in the lamp, namely power and ground. The lamps that the trailer designer wishes to use are typically standard lamps, since these lamps are manufactured and purchased in bulk to minimize cost. Many times, the lamp is miniaturized to reduce cost of the lamp, the cost of the installation, and the footprint of the lamp on the trailer. For these and other reasons, trailer manufacturers would like to use standard marker lamps in auxiliary lamp locations. Using standard lamps will also allow the trailer manufacturer to reduce part number SKU's in their plant, lowering their overall costs.
The first light emitting diode (LED) lamps were roughly the same size as incandescent bulb based lamps, since bulbs were the predominant technology at the time. As LED lamps were introduced into vehicle lighting, electronics were integrated onto the lamp to provide the proper power to the LED's. Since the first lamps were large, there was adequate room for the ancillary electronic components. As the market accepted LED lamps as a preferred technology over incandescent bulbs, the size of the lamps shrank. The size of the lamp shrank to the point that not all of the needed electrical components could fit inside the lamp body. As shown in
The presently disclosed embodiments use standard lamps that allow a separation of the electronics from the lamp.
In a first embodiment, a harness or adapter 516 comprises an overmolded subsystem 518. This adapter 516 adds a function to a standard, two-wire lamp (such as the XOR function described hereinabove), when connected to a standard trailer wiring harness system that provides three wires to lamps, as illustrated in
Adapter 516 includes at least one lamp connector 532 that is coupled to the overmolded electronics and is configured to connect the overmolded electronics to a lamp. Adapter 516 also includes at least one wiring harness connector 534 that is coupled to the overmolded electronics and is configured to connect the overmolded electronics to the wiring harness on the trailer. As one of ordinary skill in the art can appreciate, connectors 532 and 534 may comprise one or more electrical contacts for connecting one or more electrical paths between the overmolded electronics and the lamp and/or wiring harness. Additionally, the connectors may be in a variety of shapes and configurations.
The adapter 516 allows the installer to use standard, 2-wire lamps for two functions (turn/hazard indication and marker indication) as opposed to the existing single function and/or three-wire lamps. This adapter 516 may be used for lamps in a variety of locations on a variety of vehicles. For example, this adapter 516 may be designed to connect to a trailer rear sill system 702, located in the rear buck-plate 704 of the trailer 700, as illustrated in
In another embodiment, an adapter having an overmolded subsystem is installed under a standard lamp where a plug is typically plugged in. This allows a standard lamp to utilize added features without adding parts or significant mass to the wiring harness system. Since the standard lamp already mates with a plug to facilitate replacement of the lamp in the field, no additional assembly or tooling is required to add the enhanced functionality.
As shown in
As can be seen in
In the illustrated embodiment of
To aid in the nested arrangement described above, one or more surfaces of housing 838 may also be configured to conform to one or more surfaces defining the recess 856 of the standard lamp assembly 854. Conforming a surface of the housing 838 to a surface of the standard lamp assembly 854 may aid in decreasing the size of the combined assembly; may limit the “play” between the adapter 836 and the standard lamp assembly 854, thereby reducing wear on plug 842 and terminals 844, and 846; and may accommodate room for additional electronics inside of the housing 838.
The combined assembly (adapter 836 and standard lamp assembly 854) will interface with the standard wiring harness with no changes needed to the wiring harness, yet the adapter 836 provides enhanced functionality to the standard lamp 854. The plug connection 842/852 allows the standard lamp 854 to be easily replaced in the field with another standard lamp 854. Therefore, the electronic circuitry that provides enhanced functionality to the standard lamp 854 stays on the vehicle and does not need to be replaced when the standard lamp 854 is replaced.
Other embodiments from the above discussion will be clear to one of ordinary skill in the art. For example, as illustrated in
Other functions, as will be apparent to one of ordinary skill in the art from this disclosure, may be added to the above described adapters and various embodiments. For example, the circuit in the adapter may monitor an incoming signal and use that signal to determine the power to be applied to the lamp. Similarly, the circuit may monitor the operation of the lamp and, for example, provide notification to a driver and/or operator of a faulty lamp condition.
While the invention has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character, it being understood that only the preferred embodiment has been shown and described and that all changes and modifications that come within the spirit of the invention are desired to be protected. For example, the disclosed embodiments relate to trailer lighting applications; however, one skilled in the art will recognize that the principles of the present invention will find application with any lighting system.
This application claims the benefit of U.S. Provisional Application No. 61/424,948 filed Dec. 20, 2010, which is hereby incorporated by reference.
Number | Date | Country | |
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61424948 | Dec 2010 | US |