BALANCING ARRANGEMENT WITH REDUCED AMOUNT OF BALANCING TRANSFORMERS

TECHNICAL FIELD

[0001] The present invention relates to the field of cold cathode fluorescent lamp based lighting and more particularly to an arrangement in which balancing transformers are supplied at the lamp end associated with the driving transformer.

BACKGROUND ART

[0002] Fluorescent lamps are used in a number of applications including, without limitation, backlighting of display screens, televisions and monitors. One particular type of fluorescent lamp is a cold cathode fluorescent lamp (CCFL). Such lamps require a high starting voltage (typically on the order of 700 to 1,600 volts) for a short period of time to ionize a gas contained within the lamp tubes and fire or ignite the lamp. This starting voltage may be referred to herein as a strike voltage or striking voltage. After the gas in a CCFL is ionized and the lamp is fired, less voltage is needed to keep the lamp on. [0003] In liquid crystal display (LCD) applications, a backlight is needed to illuminate the screen so as to make a visible display. Backlight systems in LCD or other applications typically include one or more CCFLs and an inverter system to provide both DC to AC power conversion and control of the lamp brightness. Even brightness across the panel and clean operation of inverters with low switching stresses, low EMI, and low switching losses is desirable.

[0004] The lamps are typically arranged with their longitudinal axis proceeding horizontally. In general, even brightness involves two dimensions: uniform brightness in the vertical dimension, i.e. among the various lamps; and uniform brightness along the longitudinal axis of each of the various lamps in the horizontal dimension. Brightness uniformity in the vertical dimension is largely dependent on matching the lamp currents, which normally requires a certain type of balancing technique to maintain an even lamp current distribution. U.S. Patent S/N 7,242,147 issued July 10, 2007 to Jin, entitled "Current Sharing Scheme for Multiple CCFL Lamp Operation", the entire contents of which is incorporated herein by

reference, is addressed to a ring balancer comprising a plurality of balancing transformers which facilitate current sharing in a multi-lamp backlight system thus providing even lamp current distribution. Advantageously, such a ring balancer may be arranged with a low voltage, high current loop, thereby exhibiting limited leakage to a metal chassis.

[0005] Brightness uniformity in the horizontal dimension is impacted by the existence of parasitic capacitance between the CCFLs and the chassis. As a result of the parasitic capacitance, leakage current exists along the length of the lamps and such leakage further results in diminishing brightness along the lamps' longitudinal axis towards the cold end in a single ended drive architecture. The term single ended drive architecture refers to a backlight arrangement in which the high voltage drive power is applied from only one side of the lamp, which is usually called the 'hot' end, and the other side of the lamp is normally at ground potential and referred as the 'cold' end. [0006] What is desired, and not provided by the prior art, is a backlighting arrangement that can preferably provide relatively even luminance across each lamp in the system, preferably with only one inverter circuit, and further preferably provide balance for currents between lamps in the system via balancing transformers located at the chassis end associated with the driving transformer.

SUMMARY OF THE INVENTION

[0007] Accordingly, it is a principal object of the present invention to overcome at least some of the disadvantages of prior art. This is provided in certain embodiments by a backlighting arrangement in which luminaires constituted of serially connected lamp pairs, or a U-shaped lamp, are provided. One end of each luminaire is coupled to an output of a driving transformer, or other AC source, and a second end of each luminaire is coupled to the primary winding of a balancing transformer. The secondary windings of the balancing transformers are connected in a single closed loop, and arranged to be in-phase. [0008] In one embodiment, an additional balancing transformer is provided, whose primary winding is connected between the lamps of each of the lamp pairs. In such an embodiment, the secondary windings of all of the balancing transformers are connected in a single closed loop, and arranged to be in-phase. Such an arrangement

allows for a floating lamp structure, in which energy is provided to the ends of the lamps removed from the driving transformer by the closed loop. [0009] In one embodiment, an odd number of luminaires are provided. In another embodiment, a total of 4 luminaires are provided, and a single balancing transformer is provided, wherein the primary winding of the single balancing transformer is associated with a first two of the luminaires and the secondary winding is associated with a second two of the luminaires.

[00010] Certain embodiments provide for a backlighting arrangement comprising: a driving transformer; at least one balancing transformer; and a plurality of luminaires, each of the plurality of luminaires constituted of one of a pair of serially connected linear lamps and a U-shaped lamp, a first end of each of the plurality of luminaires connected to a high voltage lead of the driving transformer and a second end of each of the plurality of luminaires connected to a unique end of a winding of the at least one balancing transformer, wherein each pair of the luminaires is associated with a particular winding of one of the at least one balancing transformers, a first luminaire of the pair connected to a first end of the particular winding and a second luminaire of the pair connected to second end of the particular winding, the second end different from the first end, and wherein the first end and the second end of each of the luminaires is in physical proximity of the driving transformer and the at least one balancing transformer, the constituent lamps of the luminaires arranged in parallel and generally extending axially away from the proximity of the driving transformer.

[00011] In one embodiment, the plurality of luminaires is constituted of 4 luminaires, a first two of the luminaires connected to each end of a primary winding of a single balancing transformer and a second two of the luminaires connected to each end of a secondary winding of the single balancing transformer. In another embodiment, the backlighting arrangement further comprises at least two balancing transformers, wherein the particular winding of the balancing transformers is a primary winding, each of the balancing transformers comprising a secondary winding magnetically coupled to the primary winding, the secondary windings of the balancing transformers serially connected in a closed in-phase loop. [00012] In one further embodiment, the backlighting arrangement further comprises an odd number of luminaires wherein one of the luminaires does not

participate in any of the pairs, the second end of the primary winding of the balancing transformer associated with the not participating luminaire connected to a high voltage lead of the driving transformer. In another further embodiment, the backlighting arrangement further comprises an odd number of luminaires wherein one of the luminaires does not participate in any of the pairs, and wherein the driving transformer exhibits a pair of secondary windings, a first end of each of the secondary windings being connected together, and wherein the high voltage leads of the driving transformer are associated with a second end of each of the secondary windings, the second end of the primary winding of the balancing transformer associated with the not participating luminaire connected to the first end of the secondary windings of the driving transformer.

[00013] In another further embodiment, each of the luminaires is constituted of the pair of serially connected linear lamps, and further comprising an additional balancing transformer associated with each of the luminaires, a primary winding of the associated additional balancing transformer connected between the serially connected linear lamps, a secondary winding of each of the additional balancing transformers being serially connected in the closed in-phase loop. In yet another further embodiment, the backlighting arrangement further comprises a current sensing arrangement is provided within the serially connected closed in-phase loop. [00014] In one embodiment, the luminaires are arranged so that adjacent ends of the luminaires exhibit a uniform voltage difference there between. In another embodiment, the driving transformer exhibits a pair of secondary windings, a first end of each of the secondary windings being connected to a common point via a unique sense resistor, and wherein the high voltage leads of the driving transformer are associated with a second end of each of the secondary windings. In yet another embodiment, the driving transformer exhibits a pair of secondary windings, a first end of each of the secondary windings being connected together, and wherein the high voltage leads of the driving transformer are associated with a second end of each of the secondary windings. [00015] Certain embodiments provide for a backlighting arrangement comprising: an alternating current voltage source, comprising a first and a second voltage lead; at least one balancing transformer; and a plurality of luminaires, each of the plurality of luminaires constituted of one of a pair of serially connected linear

lamps and a U-shaped lamp, a first end of each of the plurality of luminaires connected to one of the first and second voltage leads and a second end of each of the plurality of luminaires connected to a unique end of a winding of the at least one balancing transformer, wherein each pair of the luminaires is associated with a particular winding of one of the at least one balancing transformers, a first luminaire of the pair connected to a first end of the particular winding and a second luminaire of the pair connected to second end of the particular winding, the second end different from the first end, and wherein the first end and the second end of each of the luminaires are generally spatially aligned to define a first plane, the constituent lamps of the luminaires arranged in parallel and generally defining a second plane orthogonal to the first plane.

[00016] In one embodiment, the plurality of luminaires is constituted of 4 luminaires, a first two of the luminaires connected to each end of a primary winding of a single balancing transformer and a second two of the luminaires connected to each end of a secondary winding of the single balancing transformer. In another embodiment, the backlighting arrangement further comprises at least two balancing transformers, wherein the particular winding of the balancing transformers is a primary winding, each of the balancing transformers comprising a secondary winding magnetically coupled to the primary winding, the secondary windings of the balancing transformers serially connected in a closed in-phase loop.

[00017] In one further embodiment, the backlighting arrangement comprises an odd number of luminaires wherein one of the luminaires does not participate in any of the pairs, the second end of the primary winding of the balancing transformer associated with the not participating luminaire connected to one of the first and second voltage leads. In another further embodiment, the backlighting arrangement comprises an odd number of luminaires wherein one of the luminaires does not participate in any of the pairs, and wherein the alternating current voltage source comprises a driving transformer exhibiting a pair of secondary windings, a first end of each of the secondary windings being connected together, and wherein the high voltage leads of the driving transformer are associated with a second end of each of the secondary windings, the second end of the primary winding of the balancing transformer associated with the not participating luminaire connected to the first end of the secondary windings of the driving transformer.

[00018] In one embodiment, each of the luminaires is constituted of the pair of serially connected linear lamps, and further comprising an additional balancing transformer associated with each of the luminaires, a primary winding of the associated additional balancing transformer connected between the serially connected linear lamps, a secondary winding of each of the additional balancing transformers being serially connected in the closed in-phase loop. In another embodiment, a current sensing arrangement is provided within the serially connected closed in-phase loop. [00019] In one embodiment, the luminaires are arranged so that adjacent ends of the luminaires exhibit a uniform voltage difference there between. In another embodiment, the alternating current voltage source comprises a driving transformer exhibiting a pair of secondary windings, a first end of each of the secondary windings being connected to a common point via a unique sense resistor, and wherein the voltage leads of the driving transformer are associated with a second end of each of the secondary windings.

[00020] In one embodiment, the alternating current voltage source comprises a driving transformer exhibiting a pair of secondary windings, a first end of each of the secondary windings being connected together, and wherein the voltage leads of the driving transformer are associated with a second end of each of the secondary windings.

[00021] Certain embodiments provide for a method of backlighting comprising: receiving an alternating current voltage; providing at least one balancing transformer; providing a plurality of luminaires, each of the plurality of luminaires constituted of one of a pair of serially connected linear lamps and a U-shaped lamp; connecting a first end of each of the provided plurality of luminaires to one polarity of the received alternating current voltage; connecting a second end of each of the provided plurality of luminaires to a unique end of a winding of the at least one balancing transformer, wherein each pair of the luminaires is associated with a particular winding of one of the at least one balancing transformers, a first luminaire of the pair connected to a first end of the particular winding and a second luminaire of the pair connected to second end of the particular winding, the second end different from the first end; and spatially arranging the provided luminaires so that the first end and the second end of each of

the luminaires generally define a first plane, the constituent lamps of the luminaires generally defining a second plane orthogonal to the first plane.

[00022] Additional features and advantages of the invention will become apparent from the following drawings and description.

BRIEF DESCRIPTION OF DRAWINGS

[00023] For a better understanding of the invention and to show how the same may be carried into effect, reference will now be made, purely by way of example, to the accompanying drawings in which like numerals designate corresponding elements or sections throughout.

[00024] With specific reference now to the drawings in detail, it is stressed that the particulars shown are by way of example and for purposes of illustrative discussion of the preferred embodiments of the present invention only, and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects of the invention. In this regard, no attempt is made to show structural details of the invention in more detail than is necessary for a fundamental understanding of the invention, the description taken with the drawings making apparent to those skilled in the art how the several forms of the invention may be embodied in practice. In the accompanying drawings:

[00025] Fig. 1 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising a plurality of luminaires each constituted of a U-shaped lamp, with a single balancing transformer for each pair of luminaires; [00026] Fig. 2 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising a plurality of luminaires each constituted of a pair of linear lamps, with a single balancing transformer for each pair of luminaires, wherein the driving transformer exhibits a pair of secondary windings, one end of each winding being coupled to a common point; [00027] Fig. 3 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising an odd number of luminaires each constituted of a pair of linear lamps, with a single balancing transformer for each pair of luminaires, and a balancing transformer for the odd luminaire;

[00028] Fig. 4 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising a plurality of luminaires each constituted of a pair of linear lamps, with a single balancing transformer for each pair of luminaires, wherein an additional balancing transformer is provided for each luminaire connected between the constituent linear lamps;

[00029] Fig. 5 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising a plurality of luminaires each constituted of a pair of linear lamps, with a single balancing transformer for each pair of luminaires, wherein the lamps are arranged such that adjacent ends of the luminaires exhibit a uniform voltage difference there between;

[00030] Fig. 6 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising a plurality of luminaires each constituted of a pair of linear lamps, with a single balancing transformer for each pair of luminaires, wherein the lamps are arranged such that adjacent ends of the luminaires exhibit a uniform voltage difference there between, wherein an additional balancing transformer is provided for each luminaire connected between the constituent linear lamps;

[00031] Fig. 7 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising an odd number of luminaires each constituted of a pair of linear lamps, with a single balancing transformer for each pair of luminaires, and a balancing transformer for the odd luminaire, wherein the balancing transformer of the odd luminaire is connected to a low voltage point; and

[00032] Fig. 8 illustrates a high level block diagram of an embodiment of a backlighting arrangement comprising four luminaries, each constituted of a pair of linear lamps, with a single balancing transformer for the four luminaires.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[00033] Certain of the present embodiments enable a backlighting arrangement in which luminaires constituted of serially connected lamp pairs, or a U-shaped lamp, are provided. One end of each luminaire is coupled to an output of a driving transformer, or other AC source, and a second end of each luminaire is coupled to the primary winding of a balancing transformer. The secondary windings of the

balancing transformers are connected in a single closed loop, and arranged to be in- phase.

[00034] In one embodiment, an additional balancing transformer is provided, whose primary winding is connected between the lamps of each of the lamp pairs. In such an embodiment, the second windings of all of the balancing transformers are connected in a single closed loop, and arranged to be in-phase. Such an arrangement allows for a floating lamp structure, in which energy is provided to the ends of the lamps removed from the driving transformer by the closed loop. [00035] In one embodiment, an odd number of luminaries are provided. In another embodiment, a total of 4 luminaires are provided, and a single balancing transformer is provided, wherein the primary winding is associated with a first two of the luminaires and the secondary winding is associated with a second two of the luminaires. [00036] Before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of the components set forth in the following description or illustrated in the drawings. The invention is applicable to other embodiments or of being practiced or carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein is for the purpose of description and should not be regarded as limiting.

[00037] Fig. 1 illustrates a high level block diagram of an embodiment of a backlighting arrangement 10 comprising a chassis 15, a plurality of pairs of luminaires Ll ...LK, a driver 20, a driving transformer 30, and a plurality of balancing transformers 60. Each of the plurality of pairs of luminaires Ll ... LK comprises a first luminaire Ll A... LKA, respectively, and a second luminaire LIB... LKB, respectively. Each of first and second luminaires LlA, LIB... LKA, LKB is constituted of a U-shaped lamp LlAl, LlBl ... LKAl, LKBl, respectively. A first end of each of U-shaped lamps LlAl, LlBl ... LKAl, LKBl constitutes a hot end 45 of the respective one of first and second luminaires LlA, LIB... LKA, LKB, and a second end of each of U-shaped lamps LlAl, L1B1...LKA1, LKBl constitutes a cold end 55 of the respective one of first and second luminaires LlA, L IB... LKA, LKB. Driving transformer 30 exhibits a first output 40 and a second output 50.

[00038] Driver 20, driving transformer 30, plurality of balancing transformers

60, and plurality of pairs of luminaires Ll ...LK, are disposed within chassis 15. Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60. The first and second end of each of U-shaped lamps LlAl, L1B1...LKA1, LKBl are in physical proximity of driving transformer 30, e.g.. on the same side of chassis 15 as driving transformer 30, in physical proximity of balancing transformers 60, and preferably generally define a first plane. Each of U-shaped lamps LlAl, L1B1...LKA1, LKBl generally extend axially away from the proximity of driving transformer 30, and generally define a second plane preferably orthogonal to the plane defined by first and second ends of U-shaped lamps LlAl, LlBl ...LKAl, LKBl. The outputs of driver 20 are connected to both ends of the primary winding of driving transformer 30. In one embodiment driver 20 is constituted of a CCFL controller and the associated switches in either a full bridge or half bridge configuration. [00039] A first end of the secondary winding of driving transformer 30, denoted first output 40, is connected to hot end 45 of each of first luminaires Ll A... LKA. A second end of the secondary winding of driving transformer 30, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB...LKB. A first end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated first luminaire L IA... LKA, and a second end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated second luminaire LIB... LKB. The secondary windings of balancing transformers 60 are connected in a closed loop 75, in which the polarity of the secondary windings are arranged so that voltages induced in the secondary windings are in phase and add within closed loop 75. [00040] In operation, driver 20, which in one embodiment comprises a direct drive backlight driver as described in U.S. Patent S/N 5,930,121 issued July 27, 1999 to Henry, entitled "Direct Drive Backlight System", the entire contents of which is incorporated herein by reference, provides a differential AC source via driving transformer 30. In one further embodiment the secondary of driving transformer 30 is allowed to float. For simplicity, we designate first output 40 as AC+ and second output 50 as AC-, which is appropriate for 1/2 the drive cycle. During the second half of the drive cycle, polarity is reversed and the direction of current flow is reversed.

[00041] Currents 111 - IKl are developed through the secondary winding of driving transformer 30, responsive to AC+ at first output 40, and driven through the respective first luminaires Ll A...LKA via the respective hot ends 45. Currents 111 — IKLl exit cold end 55 of each of first luminaires Ll A... LKA, respectively, and flow via the primary winding of the associated balancing transformer 60 into cold end 55 of the associated second luminaires LIB...LKB. Currents Il 1 - IKl then exit hot end 45 of the associated second luminaires LIB...LKB, respectively, and return to driving transformer 30 at second output 50. Current 12 is developed in the secondary of each of balancing transformers 60, responsive to the respective currents Il 1 - IKl. As the secondary windings of balancing transformers 60 are connected in closed loop 75, current 12 is the same for the secondary of each balancing transformer 60. As described above each of pair of luminaires Ll ... LK is connected to a balancing transformer 60, therefore currents Il 1 - IKl flowing through each of luminaires LlA, L IB... LKA, LKB are the same. Thus, equal current is maintained through all of luminaires LlA, LIB... LKA, LKB, by providing only one balancing transformer 60 for each pair of luminaires Ll ...LK.

[00042] In one embodiment, an excess lamp current, typically associated with a short circuit, can be sensed by inserting a sense resistor in closed loop 75, as will be described below in relation to Fig. 5. [00043] Fig. 2 illustrates a high level block diagram of an embodiment of a backlighting arrangement 100 comprising a plurality of pairs of luminaires Ll ...LK, a driving transformer 35 exhibiting a pair of secondary windings 36 and 38, a plurality of balancing transformers 60, and a current sensing system 90. Each of the plurality of pairs of luminaires Ll ... LK comprises a first luminaire L IA... LKA, respectively, and a second luminaire LIB ...LKB, respectively. Each of first and second luminaires LlA, LIB... LKA, LKB comprises a first linear lamp LlAl, LlBl ... LKAl, LKBl, respectively, and a second linear lamp Ll A2, L1B2...LKA2, LKB2, respectively. A first end of each of first linear lamps LlAl, L1B1...LKA1, LKBl constitutes a hot end 45 of the respective one of first and second luminaires LlA, L IB... LKA, LKB, and a first end of each of second linear lamps Ll A2, L1B2... LKA2, LKB2 constitutes a cold end 55 of the respective one of first and second luminaires LlA, LIB...LKA, LKB. Current sensing system 90 comprises a pair of current sense leads ISNSl, ISNS2 and a pair of sense resistors RSl, RS2.

[00044] Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60. Hot ends 45 and cold ends 55 of each of first and second luminaires LlA, L IB... LKA, LKB are in physical proximity of driving transformer 30, e.g. on the same side of the chassis (not shown) as driving transformer 35, in physical proximity of balancing transformers 60, and preferably generally define a first plane. First and second linear lamps LlAl, L1A2, LlBl, L1B2...LKA1, LKBl, LKA2, LKB2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 35 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. A second end of each of first lamps LlAl, L1B1...LKA1, LKBl, is connected to a second end of respective second lamps Ll A2, L1B2...LKA2, LKB2. It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing in alternating pairs. [00045] A first end of secondary winding 36 of driving transformer 35, denoted first output 40, is connected to hot end 45 of each of first luminaires LlA...LKA. A first end of secondary winding 38 of driving transformer 30, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB...LKB. A first end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated first luminaire L IA... LKA, and a second end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated second luminaire LIB... LKB. The secondary windings of balancing transformers 60 are connected in a closed loop 75, in which the polarity of the secondary windings are arranged so that voltages induced in the secondary windings are in phase and add within closed loop 75. A second end of secondary winding 36 of driving transformer 35 is connected to current sense lead ISNS2 and to a first end of sense resistor RS2. A second end of second secondary winding 38 of driving transformer 30 is connected to current sense lead ISNSl and to a first end of sense resistor RSl. A second end of each of sense resistors RSl and RS2 are connected to a common point, which in one embodiment is ground. [00046] In operation backlighting arrangement 100 operates in all respects similar to the operation of backlighting arrangement 10 of Fig. 1. Advantageously, any current imbalance between first output 40 and second output 50 is sensed responsive to the differential voltage appearing between current sensing outputs

ISNSl and ISNS2 of current sensing system 90, which are in one embodiment both fed to a CCFL controller (not shown) for corrective action or shut down. [00047] Fig. 3 illustrates a high level block diagram of an embodiment of a backlighting arrangement 200 comprising a plurality of pairs of luminaires Ll ...LK, a luminaire LS, a driving transformer 35 exhibiting a pair of secondary windings 36 and 38, a plurality of balancing transformers 60, a balancing transformer 65, and a current sensing system 90. Each of the plurality of pairs of luminaires Ll ...LK comprises a first luminaire Ll A... LKA, respectively, and a second luminaire LIB... LKB, respectively. Each of first and second luminaires LlA, LIB... LKA, LKB comprises a first linear lamp LlAl, L1B1...LKA1, LKBl, respectively, and a second linear lamp Ll A2, L1B2...LKA2, LKB2, respectively. Luminaire LS comprises a first linear lamp LSI and a second linear lamp LS2. A first end of each of first linear lamps LlAl, LlBl ... LKAl, LKBl, LSI constitutes a hot end 45 of the respective one of first and second luminaires LlA, L IB... LKA, LKB, and a first end of each of second linear lamps Ll A2, L1B2... LKA2, LKB2, LS2 constitutes a cold end 55 of the respective one of first and second luminaires LlA, LIB... LKA, LKB, LS. Current sensing system 90 comprises a pair of current sense leads ISNSl, ISNS2 and a pair of sense resistors RSl, RS2. [00048] Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60, and luminaire LS has associated therewith a single balancing transformer 65. Hot ends 45 and cold ends 55 of each of first and second luminaires LlA, L IB... LKA, LKB and luminaire LS, are in physical proximity of driving transformer 30, e.g. on the same side of the chassis (not shown) as driving transformer 35, in physical proximity of balancing transformers 60 and 65, and preferably generally define a first plane. First and second linear lamps LlAl, L1A2, LlBl, L1B2...LKA1, LKBl, LKA2, LKB2, LSI and LS2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 35 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing in alternating pairs. A second end each of first lamps LlAl, LlBl ... LKAl, LKBl, is connected to a second end of respective second lamp L1A2, L1B2...LKA2, LKB2. A second end of first lamp LSI is connected to a second end of lamp LS2.

[00049] A first end of secondary winding 36 of driving transformer 35, denoted first output 40, is connected to hot end 45 of each of first luminaires LlA...LKA and luminaire LS. A first end of secondary winding 38 of driving transformer 35, denoted second output 50, is connected to hot end 45 of each of second luminaires L IB... LKB and to a first end of the primary winding of balancing transformer 65. A first end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated first luminaire LlA...LKA, and a second end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated second luminaire LIB... LKB. A second end of the primary winding of balancing transformer 65 is connected to cold end 55 of luminaire LS, i.e. to the first end of linear lamp LS2. The secondary windings of each of balancing transformers 60 and balancing transformer 65 are connected in a closed loop 75, in which the polarity of the secondary windings are arranged so that voltages induced in the secondary windings are in phase and add within closed loop 75. A second end of secondary winding 36 of driving transformer 35 is connected to current sense lead ISNS2 and to a first end of sense resistor RS2. A second end of second secondary winding 38 of driving transformer 30 is connected to current sense lead ISNSl and to a first end of sense resistor RS 1. A second end of each of sense resistors RS 1 and RS2 are connected to a common point, which in one embodiment is ground. [00050] In operation backlighting arrangement 200 operates in all respects similar to the operation of backlighting arrangement 100, with the addition of luminaire LS. Current ISl flowing through luminaire LS is controlled responsive to the turns ratio of balancing transformer 65 and current 12 flowing through closed loop 75. Balancing transformer 65 must produce a voltage drop equivalent to two linear lamps, and thus power dissipated across balancing transformer 65 will be higher than the power dissipation across any of balancing transformers 60. In one embodiment, the turns ratio of balancing transformer 65 is the same as the turns ratio of each of balancing transformers 60. The identical turns ratio essentially maintains lamp current ISl flowing through luminaire LS, and particularly through first linear lamp LSI and second linear lamp LS2, equal to respective currents 111 - IKl flowing through each of first and second luminaires LlA, LIB... LKA, LKB, particularly first linear lamp LlAl, LlBl ... LKAl, LKBl and second linear lamp L1A2, L1B2...LKA2, LKB2, respectively, according to the principle of the balancer

operation. A voltage equivalent to two linear lamp voltage drops is automatically developed in the primary winding of 65 so as to maintain the lamp current balancing. The primary and secondary winding turns of balancing transformer 65 can be made greater than the respective number of turns of balancing transformer 60 while maintaining the same turns ratio. Increasing the respective number of turns while maintaining the same turns ratio reduces the power dissipation across balancing transformer 65 by maintaining a low core flux density, since core flux density is proportional to winding voltage and inversely proportional to the number of turns. [00051] Fig. 4 illustrates a high level block diagram of an embodiment of a backlighting arrangement 300 comprising a plurality of pairs of luminaires Ll ...LK, a driving transformer 35 exhibiting a pair of secondary windings 36 and 38, a plurality of first balancing transformers 60, a plurality of second balancing transformers 70, and a current sensing system 90, all disposed within a chassis 15. Each of the plurality of pairs of luminaires Ll ... LK comprises a first luminaire L IA... LKA, respectively, and a second luminaire L IB... LKB, respectively. Each of first and second luminaires LlA, L IB... LKA, LKB comprises a first linear lamp LlAl, LlBl ... LKAl, LKBl, respectively, and a second linear lamp L1A2, L1B2...LKA2, LKB2, respectively. A first end of each of first linear lamps LlAl, LlBl ... LKAl, LKBl constitutes a hot end 45 of the respective one of first and second luminaires LlA, LIB... LKA, LKB, and a first end of each of second lamps Ll A2, L1B2... LKA2, LKB2 constitutes a cold end 55 of the respective one of first and second luminaires LlA, L IB... LKA, LKB. Current sensing system 90 comprises a pair of current sense leads ISNSl, ISNS2 and a pair of sense resistors RSl, RS2. [00052] Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60. Each of first and second luminaires LlA, LIB, LKA, LKB has associated therewith a second additional balancing transformer 70. Hot ends 45 and cold ends 55 of each of first and second luminaires Ll A, LIB...LKA, LKB are in physical proximity of driving transformer 35, in physical proximity of balancing transformers 60, and preferably generally define a first plane. First and second linear lamps LlAl, L1A2, LlBl, L1B2...LKA1, LKBl, LKA2, LKB2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 35 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. It is to be noted that hot ends 45 and cold ends 55 are

stacked vertically within chassis 15 appearing in alternating pairs. A second end each of first lamps LlAl, L1B1...LKA1, LKBl, is connected via a primary winding of a respective additional balancing transformer 70 to a second end of respective second lamp Ll A2, L1B2...LKA2, LKB2. [00053] A first end of secondary winding 36 of driving transformer 35, denoted first output 40, is connected to hot end 45 of each first luminaires LlA...LKA. A first end of secondary winding 38 of driving transformer 35, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB...LKB. A first end of the primary winding of each first balancing transformer 60 is connected to cold end 55 of each of the respective associated first luminaire Ll A...LKA, and a second end of the primary winding of each first balancing transformer 60 is connected to cold end 55 of each of the respective associated second luminaire L IB... LKB. The secondary windings of first balancing transformers 60 and second balancing transformers 70 are connected in a closed loop 75, in which the polarity of the secondary windings are arranged so that voltages induced in the secondary windings are in phase and add within the closed loop. Preferably a single twisted wire pair 95 is arranged to connect the portion of closed loop 75 associated with second balancing transformers 70 with the portion of closed loop 75 associated with first balancing transformers 60. Thus, a balanced current 12 is exhibited flowing in each direction of twisted wire pair 95 as it traverses the length of chassis 15 reducing any electromagnetic interference. A second end of secondary winding 36 of driving transformer 35 is connected to current sense lead ISNS2 and to a first end of sense resistor RS2. A second end of second secondary winding 38 of driving transformer 30 is connected to current sense lead ISNSl and to a first end of sense resistor RSl. A second end of each of sense resistors RS 1 and RS2 are connected to a common point, which in one embodiment is ground.

[00054] In operation, power is output from driving transformer 35 as described above in relation to transformer 30 of Fig. 1. Any current imbalance between first output 40 and second output 50 is sensed responsive to the differential voltage appearing between current sensing outputs ISNSl and ISNS2 of current sensing system 90, which are in one embodiment both fed to a CCFL controller (not shown) for corrective action or shut down. For simplicity, we designate first output 40 as AC+ and second output 50 as AC-, which is appropriate for 1/2 the drive cycle.

During the second half of the drive cycle, polarity is reversed and the direction of current flow is reversed.

[00055] Currents 111 - IKl are developed through the secondary winding of driving transformer 35, responsive to AC+ at first output 40, and driven through the respective first luminaires Ll A...LKA via the respective hot ends 45. Currents 111 — IKLl exit cold end 55 of each of first luminaires Ll A... LKA, respectively, and flow via the primary winding of the associated balancing transformer 60 into cold end 55 of the associated second luminaires LIB...LKB. Currents Il 1 - IKl then exit hot end 45 of the associated second luminaires LIB...LKB, respectively, and return to driving transformer 35 at second output 50. Current 12 is developed in the secondary of each of first balancing transformers 60, responsive to 111 - IKl. As the secondary windings of first balancing transformers 60 and second balancing transformers 70 form closed loop 75, current 12 is the same at each balancing transformer 60, 70. As described above, each of first and second luminaires LlA, LIB... LKA, LKB is connected to a balancing transformer 60, 70, therefore the current flowing through each of first and second lamps LlAl, L1A2, LlBl, L1B2...LKA1, LKA2, LKBl, LKB2 will be the same since the current flowing throughout closed loop 75 is equal. [00056] In long lamps, due to capacitive leakage along the length of the lamp, even luminance across the lamp is usually not achieved. In the above embodiment each end of each linear lamp LlAl, L1A2, LlBl, L1B2...LKA1, LKBl, LKA2, LKB2 is connected to one of driving transformer 35, a first balancing transformer 60, and a second balancing transformer 70, thereby ensuring drive energy at each of linear lamp LlAl, L1A2, LlBl, L1B2...LKA1, LKBl, LKA2, LKB2, and as a result even luminance across each lamp. Advantageously, the energy coupled through the balancer secondary winding appears as low voltage and high current thus limiting any leakage to the chassis.

[00057] Fig. 5 illustrates a high level block diagram of an embodiment of a backlighting arrangement 400 comprising a plurality of pairs of luminaires Ll ...LK, a driving transformer 35 exhibiting a pair of secondary windings 36 and 38, a plurality of balancing transformers 60, and a current sensing system 110. Each of the plurality of pairs of luminaires Ll ... LK comprises a first luminaire L IA... LKA, respectively, and a second luminaire LIB ...LKB, respectively. Each of first and second luminaires LlA, LIB... LKA, LKB comprises a first linear lamp LlAl, LlBl ... LKAl, LKBl,

respectively, and a second linear lamp Ll A2, L1B2...LKA2, LKB2, respectively. A first end of each of first linear lamps LlAl, L1B1...LKA1, LKBl constitutes a hot end 45 of the respective one of first and second luminaires LlA, L IB... LKA, LKB, and a first end of each of second linear lamps L1A2, L1B2...LKA2, LKB2 constitutes a cold end 55 of the respective one of first and second luminaires LlA, LIB... LKA, LKB. Driving transformer 30 exhibits a first and second secondary winding. Current sensing system 110 comprises a current sense lead ISNS, a pair of diodes 80, 85, and a pair of sense resistors RSl, RS2. [00058] Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60. Hot ends 45 and cold ends 55 of each of first and second luminaires LlA, L IB... LKA, LKB are in physical proximity of driving transformer e.g. on the same side of the chassis (not shown) as driving transformer 35, in physical proximity of balancing transformers 60, and preferably generally define a first plane. First and second linear lamps LlAl, L1A2, LlBl, L1B2...LKA1, LKBl, LKA2, LKB2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 35 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. Each second lamp of first luminaire L1A2...LKA2 is adjacent to the first lamp of respective second luminaire L1B2...LKB2. A second end of each of first lamps LlAl, LlBl ... LKAl, LKBl, is connected to a second end of respective second lamp L1A2, L1B2...LKA2, LKB2. . It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing alternately.

[00059] A first end of secondary winding 36 of driving transformer 35, denoted first output 40, is connected to hot end 45 of each of first luminaires LlA...LKA. A first end of second secondary winding 38 of driving transformer 35, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB... LKB. A second end of secondary winding 36 of driving transformer 35 is connected to a second end of second secondary winding 38 of driving transformer 35. A first end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated first luminaire LlA...LKA, and a second end of the primary winding of each balancing transformer 60 is connected to cold end 55 of the respective associated second luminaire LIB... LKB. The secondary windings of the balancing transformers 60 are connected in a closed loop 75, in which the polarity of

the secondary windings are arranged so that voltages induced in the secondary windings are in phase and add within the closed loop. Current sensing system 110 is placed within closed loop 75, with a first end of the secondary winding of one of balancing transformers 60 connected to a first end of sense resistor RS 1 and the anode of diode 85 and a first end of the secondary winding of a second one of the balancing transformer 60 connected to the anode of diode 80 and a first end of sense resistor RS2. The cathode of diode 85 is connected to current sense lead ISNS and the cathode of diode 80. A second end of sense resistor RSl is connected to a second end of sense resistor RS2 and a common point. In one embodiment the common point is ground.

[00060] In operation lighting arrangement 400 operates in all respects similar to the operation of lighting arrangement 100, with current 12 being sensed in the balancer secondary winding loop. Current 12 flowing through sense resistors RSl, RS2 is proportional to lamp current Il according to the primary to secondary turns ratio of balancing transformers 60.

[00061] Advantageously, because cold end 55 of each of first luminaires

L IA... LKA is adjacent to a hot end 45 of a respective one of second luminaires LIB... LKB, the voltage drop between each adjacent lamp terminal is equal, thereby achieving improved brightness distribution. In one non-limiting example, driving transformer 35 outputs V volts and the voltage drop across each of linear lamps L1A1...LKB2 is V/2. The voltage at hot end 45 of each of first luminaires L IA... LKA is V and the voltage at hot end 45 of each of second luminaires LIB... LKB is -V. The voltage at cold end 55 of each of luminaires LlA, L IB... LKA, LKB is about 0. The voltage difference between hot ends 45 and cold ends 55, stacked vertically one above the other, is thus consistently V.

[00062] Fig. 6 illustrates a high level block diagram of an embodiment of a backlighting arrangement 500 comprising a plurality of pairs of luminaires Ll ...LK, a driving transformer 35 exhibiting a pair of secondary windings 36 and 38, a plurality of first balancing transformers 60, and a plurality of second balancing transformers 70, all of which are disposed within a chassis 15. Each of the plurality of pairs of luminaires Ll ... LK comprises a first luminaire L IA... LKA, respectively, and a second luminaire L IB... LKB, respectively. Each of first and second luminaires LlA, LIB... LKA, LKB comprises a first linear lamp LlAl, LlBl ... LKAl, LKBl,

respectively, and a second linear lamp Ll A2, L1B2...LKA2, LKB2, respectively. A first end of each of first linear lamps LlAl, L1B1...LKA1, LKBl constitutes a hot end 45 of the respective one of first and second luminaires LlA, L IB... LKA, LKB, and a first end of each of second lamps Ll A2, L1B2... LKA2, LKB2 constitutes a cold end 55 of the respective one of first and second luminaires LlA, LIB... LKA, LKB.

[00063] Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60. Each of first and second luminaires LlA, LIB, LKA, LKB has associated therewith a second additional balancing transformer 70. Each second lamp of first luminaire L1A2...LKA2 is adjacent to the first lamp of respective second luminaire L1B2...LKB2. Hot ends 45 and cold ends 55 of each of first and second luminaires LlA, L IB... LKA, LKB are in physical proximity of driving transformer 35, in physical proximity of balancing transformers 60, and preferably generally define a first plane. First and second linear lamps LlAl, L1A2, LlBl, L1B2...LKAl, LKBl, LKA2, LKB2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 35 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing alternately, and not in stacked pairs. A second end each of first lamps LlAl, L1B1...LKA1, LKBl, is connected via a primary winding of a respective additional balancing transformer 70 to a second end of respective second lamp L1A2, L1B2...LKA2, LKB2.

[00064] A first end of secondary winding 36 of driving transformer 35, denoted first output 40, is connected to hot end 45 of each of first luminaires LlA...LKA. A first end of second secondary winding 38 of driving transformer 35, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB... LKB. A first end of the primary winding of each first balancing transformer 60 is connected to cold end 55 of each of the respective associated first luminaire Ll A... LKA, and a second end of the primary winding of each first balancing transformer 60 is connected to cold end 55 of each of the respective associated second luminaire LIB...LKB. The secondary windings of first balancing transformers 60 and second balancing transformers 70 are connected in a closed loop 75, in which the polarity of the secondary windings are arranged so that voltages induced in the secondary windings

are in phase and add within the closed loop. Preferably a single twisted wire pair 95 is arranged to connect the portion of closed loop 75 associated with second balancing transformers 70 with the portion of closed loop 75 associated with first balancing transformers 60. Thus, a balanced current 12 is exhibited flowing in each direction of twisted wire pair 95 as it traverses the length of chassis 15 reducing any electromagnetic interference.

[00065] In operation lighting arrangement 500 operates in all respects similar to the operation of lighting arrangement 300. Advantageously, as described above in relation to Fig. 5, because hot end 45 of each of first luminaires Ll A... LKA is adjacent to a cold end 55 of a respective one of second luminaires L IB... LKB, the voltage drop between each adjacent lamp ends are substantially equal, thereby receiving better brightness distribution.

[00066] Fig. 7 illustrates a high level block diagram of an embodiment of a backlighting arrangement 600 comprising a plurality of pairs of luminaires Ll ...LK, a luminaire LS, a driving transformer 35 exhibiting a pair of secondary windings 36 and 38, and a plurality of balancing transformers 60, all of which are disposed within a chassis 15. Each of the plurality of pairs of luminaires Ll ... LK comprises a first luminaire Ll A... LKA, respectively, and a second luminaire LIB... LKB, respectively. Each of first and second luminaires LlA, LIB... LKA, LKB comprises a first linear lamp LlAl, L1B1...LKA1, LKBl, respectively, and a second linear lamp Ll A2, L1B2...LKA2, LKB2, respectively. Luminaire LS comprises a first linear lamp LSI and a second linear lamp LS2. A first end of each of first linear lamps LlAl, LlBl ... LKAl, LKBl, LSI constitutes a hot end 45 of the respective one of first and second luminaires LlA, LIB... LKA, LKB, and luminaire LS, and a first end of each of second linear lamps L1A2, L1B2... LKA2, LKB2, LS2 constitutes cold end 55 of the respective one of first and second luminaires LlA, LIB... LKA, LKB, and luminaire LS.

[00067] Each pair of luminaires Ll ... LK has associated therewith a single balancing transformer 60, and luminaire LS has associated therewith a single balancing transformer 65. Hot ends 45 and cold ends 55 of each of first and second luminaires LlA, LIB... LKA, LKB, and luminaire LS are in physical proximity of driving transformer 35, e.g. on the same side of chassis 15 as driving transformer 35, in physical proximity of balancing transformers 60 and 65, and preferably generally

define a first plane. First and second linear lamps LlAl, L1A2, LlBl, L1B2...LKAl, LKBl, LKA2, LKB2, LSI and LS2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 35 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing in alternately. A second end each of first lamps LlAl, LlBl ... LKAl, LKBl, is connected to a second end of respective second lamp L1A2, L1B2...LKA2, LKB2. A second end of first lamp LSI is connected to a second end of second lamp LS2. [00068] A first end of secondary winding 36 of driving transformer 35, denoted first output 40, is connected to hot end 45 of each of first luminaires LlA...LKA and luminaire LS. A first end of second secondary winding 38 of driving transformer 35, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB...LKB. A second end of secondary winding 36 is connected to a second end of secondary winding 38 and to a first end of the primary winding of balancing transformer 65. A first end of the primary winding of each balancing transformer 60 is connected to cold end 55 of each of the respective associated first luminaires L IA... LKA, and a second end of the primary winding of each balancing transformer 60 is connected to cold end 55 of each of the respective associated second luminaires L IB... LKB. A second end of the primary winding of balancing transformer 65 is connected to cold end 55 of luminaire LS. The secondary windings of the balancing transformers 60 and balancing transformer 65 are connected in closed loop 75, in which the polarity of the secondary windings are arranged so that voltages induced in the secondary windings are in phase and add within the closed loop. [00069] In operation lighting arrangement 600 operates in all respects similar to the operation of lighting arrangement 200, except as described below. Advantageously, as described above in relation to Fig. 5, because cold end 55 of each of first luminaires Ll A...LKA is adjacent to a hot end 55 of respective one of second luminaires LIB... LKB, and similarly hot end 45 of luminaire LS is stacked adjacent to cold end 55 of second luminaire LKB, the voltage drop between each adjacent lamp is substantially equal, thereby achieving improved brightness distribution. Differently from Fig.3, the primary winding of balancing transformer 65 is connected between cold end 55 of luminaire LS and the common connection between secondary

windings 36 and 38 of drive transformer 35. In such an arrangement only the voltage from secondary winding 36 is applied to luminaire LS, i.e. about ¹ A of the voltage applied to each of luminaire pairs Ll ... LK, and the primary winding of balancing transformer 65 does not need to develop a balancing voltage as it does in lighting arrangement 200. Balancing transformer 65 preferably exhibits the same number of winding turns as each of balancing transformers 60. The current flowing through secondary windings 36 is greater than the current through secondary winding 38, however this does not affect the operation of transformer 35. [00070] Fig. 8 illustrates a high level block diagram of an embodiment of a backlighting arrangement 700 comprising a first luminaire pair Ll and a second luminaire pair L2, a driving transformer 30, and a single balancing transformer 150, all of which are disposed within a chassis 15. Balancing transformer 150 exhibits first winding 152 and second winding 154, and the turns ratio of balancing transformer 150 is preferably 1 :1. [00071] Luminaire pair Ll comprises first luminaire LlA and second luminaire

LIB, and luminaire pair L2 comprises first luminaire L2A and second luminaire L2B. Each of first luminaires LlA, L2A, comprises a first linear lamp LlAl, L2A1, respectively, and a second linear lamp L1A2, L2A2, respectively. Each of second luminaires LIB, L2B, comprises a first linear lamp LlBl, L2B1, respectively, and a second linear lamp L1B2, L2B2, respectively a first end of each of first linear lamps LlAl, LlBl, L2A1, L2B1 constitutes hot end 45 of the respective one of luminaires LlA, LIB, L2A, L2B and a first end of each of second linear lamps L1A2, L1B2, L2A2B, L2B2 constitutes a cold end 55 of the respective one of luminaires LlA, LIB, L2A, L2B. [00072] Hot ends 45 and cold ends 55 of each of first and second luminaires

LlA, LIB, L2A, L2B are in physical proximity of driving transformer 30, in physical proximity of balancing transformer 150, and preferably generally define a first plane at one side of chassis 15. First and second linear lamps LlAl, L1A2, LlBl, L1B2, L2A1, L2A2, L2B1, L2B2 are arranged in parallel, generally extend axially away from the proximity of driving transformer 30 and generally define a second plane preferably orthogonal to the plane defined by hot ends 45 and cold ends 55. It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing alternately, and not in stacked pairs. A second end of each of first linear lamps LlAl, LlBl,

L2A1, L2B1 is connected to a second end of respective second lamps L1A2, L1B2, L2A2, L2B2. It is to be noted that hot ends 45 and cold ends 55 are stacked vertically appearing alternately.

[00073] A first end of the secondary winding of driving transformer 30, denoted first output 40, is connected to hot end 45 of each of first luminaires LlA and L2A. A second end of the secondary winding of driving transformer 30, denoted second output 50, is connected to hot end 45 of each of second luminaires LIB and L2B. A first end of winding 152 of balancing transformer 150 is connected to cold end 55 of first luminaire LlA, and a second end of winding 152 of balancing transformer 150 is connected to cold end 55 of second luminaire LIB. A first end of winding 154 of balancing transformer 150 is connected to cold end 55 of first luminaire L2A, and a second end of winding 154 of balancing transformer 150 is connected to cold end 55 of second luminaire L2B. [00074] In operation, power is output from driving transformer 30 as described above in relation to Fig. 1. For simplicity, we designate first output 40 as AC+ and second output 50 as AC-, which is appropriate for 1/2 the drive cycle. During the second half of the drive cycle, polarity is reversed and the direction of current flow is reversed. [00075] A current is developed through the secondary winding of driving transformer 30, responsive to AC+ at first output 40, a current Il is driven through hot end 45 of first luminaire LlA into first linear lamp LlAl, and a current 13 is driven through hot end 45 of first luminaire L2A into first linear lamp L2A1. Current Il further flows through second linear lamp L1A2, exits cold side 55 of first luminaire LlA and enters winding 152 of balancing transformer 150. Current Il exits winding 152, enters cold side 55 of second luminaire LIB, and flows through second and first linear lamps L1B2 and LlBl, exits hot side 45 of second luminaire LIB, and is returned to the secondary winding of transformer 30 at second output 50. Current 13 further flows through second linear lamp L2A2, exits cold side 55 of first luminaire L2A and enters winding 154 of balancing transformer 150. Current 13 exits winding 152, enters cold side 55 of second luminaire L2B, and flows through second and first linear lamps L2B2 and L2B1, exits hot side 45 of second luminaire L2B, and is returned to the secondary winding of transformer 30 at second output 50.

[00076] As the turns ratio of windings 152 and 154 of balancing transformer

150 is preferably 1 :1, current Il is forced to equal current 13. Thus, equal current is maintained through all of first and second luminaires LlA, LIB, L2A, L2B by providing only one balancing transformer 150. As described above in relation to Fig. 5, by proper arrangement vertically of first and second luminaires LlA, LIB, L2A, L2B, the voltage drop between each adjacent lamp is equal thereby achieving an improved brightness distribution.

[00077] Figs. 2, 3, 5, 7 and 8 have been described in an embodiment in which the constituent luminaires comprise pairs of linear lamps, however this is not meant to be limiting in any way. In another embodiment, any or all of the luminaires can comprise a U-shaped lamp without exceeding the scope.

[00078] Advantageously, the above embodiments exhibits an improved average brightness horizontally, since the hot sides of the luminaires and the cold sides of the luminaires appear vertically stacked on the same side of the panel. The average brightness of the stacked hot and cold sides is thus nearly equal the average brightness on the far side of the panel.

[00079] It is appreciated that certain features of the invention, which are, for clarity, described in the context of separate embodiments, may also be provided in combination in a single embodiment. Conversely, various features of the invention which are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable sub-combination.

[00080] Unless otherwise defined, all technical and scientific terms used herein have the same meanings as are commonly understood by one of ordinary skill in the art to which this invention belongs. Although methods similar or equivalent to those described herein can be used in the practice or testing of the present invention, suitable methods are described herein.

[00081] All publications, patent applications, patents, and other references mentioned herein are incorporated by reference in their entirety. In case of conflict, the patent specification, including definitions, will prevail. In addition, the materials, methods, and examples are illustrative only and not intended to be limiting.

[00082] It will be appreciated by persons skilled in the art that the present invention is not limited to what has been particularly shown and described hereinabove. Rather the scope of the present invention is defined by the appended

claims and includes both combinations and sub-combinations of the various features described hereinabove as well as variations and modifications thereof which would occur to persons skilled in the art upon reading the foregoing description and which are not in the prior art.