Harmonic drive

The invention claimed is: 1. A harmonic drive, comprising a wave generator, a flexible, externally toothed gear component that is deformable by the wave generator, at least one internally toothed gear component engaging the flexible, externally toothed gear component, and in an unstressed state, the flexible, externally toothed gear component comprises a convex basic shape, wherein the flexible, externally toothed gear component has an elliptic basic form, with a spring energy (E) stored in said flexible, externally toothed gear component having two minima E(dw_g-d 1 ) and two maxima E(dw_g-d 2 ) per one full revolution of the flexible, externally toothed gear component. 2. The harmonic drive according to claim 1 , wherein an amount of a difference between a teeth count of external teeth of the flexible gear component and a teeth count of internal teeth of the internally toothed gear component is maximally equivalent to 1/60. 3. The harmonic drive according to claim 1 , wherein the spring energy at the minima E(dw_g-d 1 ) stored in the flexible, externally toothed gear component is equivalent to less than half of the spring energy at the maxima E(d 2 _g-d 2 ) stored in said gear component. 4. The harmonic drive according to claim 1 , wherein the flexible, externally toothed gear component has a basic form of a polygon with rounded edges. 5. The harmonic drive according to claim 1 , wherein the flexible, externally toothed gear component is a flex ring. 6. The harmonic drive according to claim 5 , wherein there are two of the internally toothed gear components, and one of the two internally toothed gear components comprises a driven sprocket. 7. The harmonic drive according to claim 1 , wherein the flexible, externally toothed gear component comprises a flex cup which is adapted to be a driven element. 8. A control gear of an electric camshaft adjuster or a device for adjusting a compression ratio of an internal combustion engine comprising the harmonic drive according to claim 1 . 9. A method for operating a harmonic drive comprising a wave generator, a flexible, externally toothed gear component, that by the wave generator, as well as at least one internally toothed gear component that engages the flexible, externally toothed gear component, with the flexible, externally toothed gear component having an out-of-round basic form in a mechanically unstressed state, the method comprising the externally toothed gear component adjusting itself into a desired position in a period in which no relative adjustment shall occur via a spring energy (E) stored in said flexible, externally toothed gear component, and said flexible, externally toothed gear component applying an inherent holding torque that reduces a holding torque applied for driving the wave generator. 10. A harmonic drive, comprising a wave generator adapted to be connected to an adjustment shaft, a flexible, externally toothed gear component that is deformable by the wave generator, that in an unstressed state, comprises a convex basic shape, a first internally toothed gear component engaging the flexible, externally toothed gear component that is adapted to be connected to a drive shaft, and a second internally toothed gear component engaging the flexible, externally toothed gear component that is adapted to be connected to a driven shaft, and wherein the flexible, externally toothed gear component has an elliptic basic form, with a spring energy (E) stored in said flexible, externally toothed gear component having two minima and two maxima per one full revolution of the flexible, externally toothed gear component. 11. The harmonic drive according to claim 10 , wherein the spring energy at the minima stored in the flexible, externally toothed gear component is equivalent to less than half of the spring energy at the maxima. 12. The harmonic drive according to claim 10 , wherein the first and second internally toothed gear components have a different number of teeth. 13. The harmonic drive according to claim 10 , wherein the transmission ratio is at least 60:1. 14. The harmonic drive according to claim 10 , wherein the wave generator includes an internal ring, an external ring on which the flexible, externally toothed gear component is located, and roller bodies located between the internal and external rings.