This application is related to and expressly incorporates herein by reference commonly-owned U.S. patent application Ser. No. 11/646,009 of Varga, et al., entitled “Lamp Transformer”. Cross-reference is also made to commonly owned U.S. patent application Ser. No. 11/646,213, filed Dec. 27, 2006, entitled “Lamp Igniter Module and Transformer Carrier”; Ser. No. 11/646,009, filed Dec. 27, 2006, entitled “Lamp Transformer”; Ser. No. 11/645,879, filed Dec. 27, 2006, entitled “Lamp Transformer Assembly”; Ser. No. 11/513,777, filed Aug. 31, 2006, entitled “Lamp Transformer”; and, Ser. No. 11/710,751, filed Feb. 26, 2007, entitled “High Voltage Transformer and a Novel Arrangement/Method for HID Automotive Headlamps.”
This disclosure generally relates to a high voltage transformer and igniter module of the type used in a lamp assembly. More particularly, the voltage transformer assembly and igniter module assembly is of the type typically used in an automotive lamp assembly such as a high intensity discharge (HID) lamp.
There is a continuing demand for automotive HID lamps. Just as importantly, there is a continued need for addressing various issues with regard to the final product, reliability, and the overall weight of the assembly. For example, manufacturers over the years have improved on the weight of the headlamp assembly in an effort to contribute to the need to decrease the OEM's desire to reduce the overall weight of an automotive vehicle. Although reductions have been achieved in reaching a weight of approximately 65 grams, further recent improvements in weight reduction have been limited.
Still another area needing improvement in automotive HID lamps relates to the cost to manufacture. For example, it is important that assembly of the lamp components be repeatable, accurate, and reliable, as well as limiting the number of steps on the manufacturing process. For example, it is important to limit the number of welds required to connect electrical components. Likewise, eliminating handling or processing steps typically results in reduced manufacturing costs. Just as important, however, is the improved quality that results from incorporating precise, repeatable steps into the manufacturing process so that overall quality of the resultant product improves. For example, a separate, special fixture is presently required for potting a lamp transformer of the type shown and described in the Ser. No. 11/646,009 application commonly owned by the assignee of the present application.
Further, although bobbinless transformer assemblies are generally known in the transformer art, incorporation into the transformer assemblies used in automotive lamp applications presents unique circumstances in still being able to address high voltage insulation factors. For example, a challenge remains in effectively reducing weight but without impacting on the need to properly insulate for high voltage applications of the type encountered in a compact environment such as an automotive headlamp.
Consequently, improvement is required in reducing weight, improving reliability, limiting manufacturing steps and costs, while providing an improved igniter for a HID headlamp.
A lamp transformer assembly includes a transformer having primary and secondary windings. A carrier is dimensioned to receive the transformer and includes a high voltage wire receiving portion formed therein.
The transformer may include a bar core without a bobbin.
A secondary winding is wrapped around the bar core, and a primary winding is wrapped around the secondary winding. Moreover, it is preferred that a single layer or multi-layer dielectric material be disposed between the windings.
The primary winding is preferably a thin strip or strap having a width substantially greater than a thickness.
A carrier is modified to easily receive first and second ends of the transformer.
The carrier in one embodiment accommodates the potting material eliminating use of a separate potting fixture and allowing a one-step potting process by providing thin walls around the transformer.
The strap design of the primary winding also improves the magnetic coupling of the transformer and allows the primary winding to cover a large section or surface area of the secondary winding.
A primary benefit resides in the decreased weight of the automotive HID igniter assembly.
Another benefit is found in the improved handling of the high voltage wire.
Still another benefit relates to improved magnetic coupling between the primary and secondary windings of the transformer.
Yet another benefit is realized by using the transformer carrier as the potting fixture.
Still other features and benefits and advantages are found as will be appreciated from reading and understanding the following detailed description.
Turning to
The igniter assembly includes a printed circuit board assembly 112 that receives a transformer assembly 114 thereon, and which is enclosed within housing 116, an opposite end of which receives a bottom cover 118 in sealed relation to the housing when assembled. A crown 120 is provided on the housing and preferably includes multiple retaining fingers 122 to mechanically engage one end of the lamp assembly 100.
First or interior surfaces 132a, 134a of the respective end members 132, 134 are disposed in facing relation. Each interior surface preferably includes a recess 150 that extends inwardly from an arched end of the end member and terminates at a location above the interconnecting members 136. In addition a through slot 152 is provided in each end member and extends completely through the end member, i.e., 132a, 134a to external surfaces 132b, 134b. Moreover, the through slots preferably extend over a limited height of the end members, i.e., less than the height of the recesses 150.
An outer surface 134b of one of the end members (here, the right-hand end member 134 as shown in
In addition, an extension portion shown as angled wall 166 extends from a base portion of end member 134 at an area adjacent the interconnecting member 136a. As will be described further below, the angled member 166 includes a channel on an underside thereof that is in operative communication with channel 160 and terminates at a region generally centrally located between the end walls of the carrier.
Conductive pins 180 are preferably located in respective corners of the cradle. The pins serve as either a conductive attachment region, for example for the low voltage wire to be described further below, or simply serve as a locating means or support for the cradle relative to the printed circuit board assembly as will also become further evident below.
As shown in
Opposite ends of the bar core of the transformer assembly are received within the recesses 150 of the respective end members 132, 134. This cradle design allows the bar core transformer to be inserted from the arched end of the end members toward the interconnecting members. In addition, a primary winding 196 is shown as a thin strip or strap having a width that is substantially greater than a thickness of the strap. This allows the primary winding to cover a substantial surface area of the secondary winding when wrapped therearound as illustrated. This improves the magnetic coupling between the primary and secondary windings without adding more turns on the secondary winding as would be required if a corresponding thin wire were used for the primary winding.
In addition, a multi-layer dielectric material is disposed between the primary and secondary windings to serve as an insulation layer between the windings. Moreover, as noted above the transformer does not include a bobbin. Instead, using the single or multi-layer dielectric material allows the conventional bobbin to be eliminated. Thus, reduced weight is achieved by eliminating use of the bobbin, reducing the number of layers and turns of the secondary winding, and without impacting operability of the transformer assembly.
First and second ends 196a, 196b of the primary winding pass through corresponding slots 198 in respective interconnecting members 136a, 136b. The ends 196a, 196b of the primary winding are interconnected to the printed circuit board.
At the other end of the cradle assembly, a high voltage lead wire 204 extends from the other end of the transformer, passes through slot 152 and is received in the recess 160. Likewise, the high voltage lead wire preferably has an insulating sleeve along at least a portion thereof where the lead wire passes through the slot 152. The high voltage lead wire continues through the angled arm 166, and particularly, as better illustrated in
As shown in
The printed circuit board 112 with installed components is tested and, if qualified, the igniter board is then installed into the housing 110, and particularly into cavity 220 through the lower, open end. A sealant is provided along a connector receiving recess 222 in the housing in order for the connector 224 to be sealingly and securely secured to the housing.
The invention has been described with reference to the preferred embodiments. Obviously, modifications and alterations will occur to others upon reading and understanding the preceding detailed description. It is intended that the invention be construed as including all such modifications and alterations.
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