Light bar containing symmetric LED placement and method of making thereof

What is claimed is: 1. A light bar comprising multiple instances of a repetition unit, wherein: the multiple instances of the repetition unit extend along a lengthwise direction of the light bar from a first end of the light bar to an opposite second end of the light bar; the multiple instances of the repetition unit are periodically positioned, and are oriented to emit light along parallel light emission directions that are perpendicular to the lengthwise direction of the light bar; the repetition unit includes at least eight light emitting diodes containing at least three types of light emitting devices; and an entire sequence of all light emitting devices within the repetition unit from one end of the repetition unit to the other end of the repetition unit is a symmetric sequence in which a reverse sequence of the symmetric sequence is identical to the symmetric sequence, and which provides a symmetric light spectrum distribution about a center of the symmetric sequence, wherein the repetition unit comprises: a first light emitting device cluster including a first sequence of instances of the at least three types of light emitting devices; and a second light emitting device cluster located adjacent to the first light emitting device cluster and including a second sequence of instances of the at least three types of light emitting devices that is a reverse sequence of the first sequence; and wherein the second sequence is different from the first sequence. 2. The light bar of claim 1 , wherein the repetition unit consists of the first sequence and the second sequence, and the repetition unit includes eight or ten light emitting diodes. 3. The light bar of claim 1 , wherein: the first sequence includes, in order: an instance of a first-type light emitting device configured to emit light at a first peak wavelength; two instances of a second-type light emitting device configured to emit light at a second peak wavelength; and an instance of a third-type light emitting device configured to emit light at a third peak wavelength; and the second wavelength is shorter than the first wavelength and longer than the third wavelength. 4. The light bar of claim 3 , wherein: the first-type light emitting device is a red-light-emitting light emitting diode (LED); the second-type light emitting device is a green-light-emitting LED; and the third-type light emitting device is a blue-light-emitting LED. 5. The light bar of claim 4 , wherein each of the first sequence and the second sequence includes two green-light-emitting LEDs, only a single instance of the red-light-emitting LED and only a single instance of the blue-light-emitting LED. 6. The light bar of claim 1 , wherein the repetition unit consists of the first light emitting device cluster and the second light emitting device cluster. 7. The light bar of claim 1 , wherein each of the first light emitting device cluster and the second light emitting device cluster includes a respective set of lead structures configured to provide electrical connection to instances of the at least three types of light emitting devices therein. 8. The light bar of claim 7 , wherein each of the first light emitting device cluster and the second light emitting device cluster includes a dielectric molding embedding the respective set of lead structures and the instances of the at least three types of light emitting devices therein. 9. The light bar of claim 1 , wherein a first light emitting device at the first end of the light bar and a last light emitting device at the second end of the light bar are configured to emit the same color light. 10. The light bar of claim 9 , wherein the first light emitting device and the last light emitting device both comprise the same one of a red-light-emitting LED, a blue-light-emitting LED or a green-light-emitting LED. 11. The light bar of claim 9 , wherein the first light emitting device is a red-light-emitting LED and the last light emitting device is a red-light-emitting LED. 12. An integrated back light unit, comprising: the light bar of claim 1 ; a light guide plate optically coupled to the light bar; and a reflector located on a face of the light guide plate and including extraction features configured to direct light from the light emitting devices of the light bar along a direction substantially perpendicular to the face of the light guide plate. 13. The light bar of claim 1 , wherein the at least three types of light emitting devices comprise: a first-type LED configured to emit light at a first peak wavelength; a second-type LED configured to emit light at a second peak wavelength which is longer than the first peak wavelength; and a third-type LED configured to emit light at a third peak wavelength which is longer than the first and the second peak wavelengths, wherein a first LED at the first end of the light bar and a last LED at the second end of the light bar are configured to emit the same color light. 14. The light bar of claim 13 , wherein the first LED and the last LED both comprise the same one of a red-light-emitting LED, a blue-light-emitting LED or a green-light-emitting LED. 15. The light bar of claim 13 , wherein the first LED is a red-light-emitting LED and the last LED is a red-light-emitting LED. 16. An integrated back light unit, comprising: the light bar of claim 13 ; a light guide plate optically coupled to the light bar; and a reflector located on a face of the light guide plate and including extraction features configured to direct light from the light emitting devices of the light bar along a direction substantially perpendicular to the face of the light guide plate. 17. A method of making a light bar, comprising: separately fabricating a plurality of light emitting diode (LED) clusters, wherein each LED cluster includes at least three different types of LEDs; and attaching the plurality of LED clusters to a support to form the light bar such that the light bar comprises multiple instances of a repetition unit that is an LED cluster, wherein: the multiple instances of the repetition unit extend along a lengthwise direction of the light bar from a first end of the light bar to an opposite second end of the light bar; the multiple instances of the repetition unit are periodically positioned, and are oriented to emit light along parallel light emission directions that are perpendicular to the lengthwise direction of the light bar; the repetition unit includes at least three types of light emitting devices; and an entire sequence of all light emitting devices within the repetition unit from one end of the repetition unit to the other end of the repetition unit is a symmetric sequence in which a reverse sequence of the symmetric sequence is identical to the symmetric sequence, and which provides a symmetric light spectrum distribution about a center of the symmetric sequence, wherein the repetition unit comprises: a first light emitting device cluster including a first sequence of instances of the at least three types of light emitting devices; and a second light emitting device cluster located adjacent to the first light emitting device cluster and including a second sequence of instances of the at least three types of light emitting devices that is a reverse sequence of the first sequence; and wherein the second sequence is different from the first sequence. 18. The method of claim 17 , wherein: the support comprises a printed circuit board; and the first LED and the last LED both comprise the same on