Three-layer color display using printed LED dies

What is claimed is: 1. A display comprising: stacked layers comprising at least a first layer that emits light of a first color, a second layer overlying the first layer that emits light of a second color, and a third layer overlying the second layer that emits light of a third color, at least the second layer and the third layer having substantially transparent portions to allow light from underlying layers to pass through, the stacked layers comprising: the first layer forming an array of first pixels that emit light of the first color, the first pixels containing first light emitting diodes (LEDs) that emit light of the first color; the second layer forming an array of second pixels that emit light of the second color, the second pixels containing second LEDs that emit light of the second color, a majority of an area of each of the second pixels being substantially transparent to pass the light of the first color; and the third layer forming an array of third pixels that emit light of the third color, the third pixels containing third LEDs that emit light of the third color, a majority of an area of each of the third pixels being substantially transparent to pass the light of the first color and the second color, wherein the first pixels, the second pixels and the third pixels are aligned so that a combination of a single first pixel, a single second pixel, and a single third pixel form a single multi-color pixel, wherein the first LEDs, the second LEDs, and the third LEDs are pre-formed inorganic LEDs that have been printed in the first pixels, the second pixels, and the third pixels, and wherein each of the first LEDs, the second LEDs, and the third LEDs comprises an LED portion and an integrated transistor portion, such that the first pixels, second pixels, and third pixels are controlled by a control voltage applied to a control terminal of the transistor portion. 2. The display of claim 1 wherein a combination of the first color, the second color, and the third color produce a combination of red, green, and blue light. 3. The display of claim 1 wherein no wavelength conversion material is used in the display for producing the first color, the second color, and the third color. 4. The display of claim 1 further comprising: the first pixels being formed in a first 2-dimensional array having first column lines and first row lines connected to the first LEDs; the second pixels being formed in a second 2-dimensional array having transparent second column lines and transparent second row lines connected to the second LEDs; and the third pixels being formed in a third 2-dimensional array having transparent third column lines and transparent third row lines connected to the third LEDs. 5. The display of claim 1 wherein there is a random number of the first LEDs in the first pixels, there is a random number of the second LEDs in the second pixels, and there is a random number of the third LEDs in the third pixels. 6. The display of claim 1 wherein there are a plurality of the first LEDs in each of the first pixels, a plurality of the second LEDs in each of the second pixels, and a plurality of the third LEDs in each of the third pixels. 7. The display of claim 1 wherein the first layer is formed on a substrate, the second layer is formed on a first dielectric layer, and the third layer is formed on a second dielectric layer. 8. The display of claim 1 wherein the second layer and the third layer are deposited over the first layer. 9. The display of claim 1 wherein the first LEDs, the second LEDs, and the third LEDs are less than about 50 microns in width. 10. The display of claim 1 wherein the first LEDs, the second LEDs, and the third LEDs are printed pre-formed inorganic LEDs. 11. The display of claim 1 wherein the first LEDs, the second LEDs, and the third LEDs are inorganic LEDs having top electrodes and bottom electrodes. 12. The display of claim 1 wherein, at least for some of the multi-color pixels, there are different numbers of the first LEDs, the second LEDs, and the third LEDs. 13. A method of fabricating a color display comprising: providing a substrate; depositing a first layer over the substrate, forming an array of first pixels that emit light of a first color, the first pixels containing first light emitting diodes (LEDs) that emit light of the first color; depositing a second layer over the first layer, the second layer forming an array of second pixels that emit light of the second color, the second pixels containing second LEDs that emit light of the second color, a majority of an area of each of the second pixels being substantially transparent to pass the light of the first color; and depositing a third layer over the second layer, the third layer forming an array of third pixels that emit light of the third color, the third pixels containing third LEDs that emit light of the third color, a majority of an area of each of the third pixels being substantially transparent to pass the light of the first color and the second color, wherein the first pixels, the second pixels and the third pixels are aligned so that a combination of a single first pixel, a single second pixel, and a single third pixel form a single multi-color pixel, wherein the first LEDs, the second LEDs, and the third LEDs are pre-formed inorganic LEDs that have been printed in the first pixels, the second pixels, and the third pixels, and wherein each of the first LEDs, the second LEDs, and the third LEDs comprises an LED portion and an integrated transistor portion, such that the first pixels, second pixels, and third pixels are controlled by a control voltage applied to a control terminal of the transistor portion. 14. The method of claim 13 wherein a combination of the first color, the second color, and the third color produce a combination of red, green, and blue light. 15. The method of claim 13 wherein no wavelength conversion material is used in the display for producing the first color, the second color, and the third color. 16. The method of claim 13 further comprising: printing first column lines and first row lines in the first pixels connected to the first LEDs; printing transparent second column lines and transparent second row lines in the second pixels connected to the second LEDs; and printing transparent third column lines and transparent third row lines in the the third pixels connected to the third LEDs. 17. The method of claim 13 wherein there is a random number of the first LEDs in the first pixels, there is a random number of the second LEDs in the second pixels, and there is a random number of the third LEDs in the third pixels. 18. The method of claim 13 wherein the first LEDs, the second LEDs, and the third LEDs are less than about 50 microns in width. 19. The method of claim 13 wherein, at least for some of the multi-color pixels, there are different numbers of the first LEDs, the second LEDs, and the third LEDs.