Zoom dual-aperture camera with folded lens

The invention claimed is: 1. A digital camera comprising: a Wide sub-camera and a Tele sub-camera the Wide sub-camera comprises a Wide lens module and a Wide image sensor, the Wide lens module having a Wide lens symmetry axis along a first optical path between an object side and the Wide image sensor; the Wide sub-camera configured to provide a Wide image; the Tele sub-camera comprises a Tele lens module and a Tele image sensor and a reflecting element; the Tele lens module having a Tele lens symmetry axis along a second optical path, the Tele lens symmetry axis positioned substantially perpendicular to the Wide lens symmetry axis, the Tele sub-camera configured to provide a Tele image; the reflecting element having a reflecting element symmetry axis inclined to both the Wide lens symmetry axis and the Tele lens symmetry axis and operative to provide a folded optical path between the object and the Tele image sensor; wherein the Tele lens module comprises a group of lens elements and wherein the lens elements in the group are designed to have a diameter substantially not exceeding the diameter of an aperture of the Tele sub-camera; and wherein the Tele sub-camera further comprises an auto-focus (AF) mechanism configured to move the Tele lens along the Tele symmetry axis; the AF mechanism having a height substantially not exceeding the height of a Tele lens module. 2. The camera of claim 1 , wherein the height of the Tele module does not exceed 6.5 mm. 3. The camera of claim 1 , wherein the Tele lens module is configured to enable to generate an image on an entire area of the Tele image sensor. 4. The camera of claim 1 , wherein the AF mechanism comprises one or more magnets coupled to respective coils, the magnets having a height substantially not exceeding the height of the Tele lens module. 5. The camera of claim 4 , wherein the coils are positioned laterally on one or two sides of the Tele lens module. 6. The camera of claim 4 , wherein the AF mechanism comprises only one magnet coupled to a respective coil. 7. The camera of claim 1 , further comprising a second reflecting element positioned in the second optical path between the Tele lens module and the Tele image sensor, the second reflecting element being configured to direct light that propagates parallel to the second optical path to the first optical path, wherein the Tele image sensor lies in a plane substantially perpendicular to the Wide lens symmetry axis. 8. The camera of claim 1 , further comprises a third sub-camera that includes a third lens module and a third image sensor, the third lens having a third lens symmetry axis; the third camera is configured to provide a third image. 9. The camera of claim 8 , wherein the Wide lens module has a Wide field of view FOV W and the Tele lens module has a Tele field of view FOV T narrower than FOV W ; wherein the third sub-camera is a Mid sub-camera with a field of view FOV M that fulfills FOV W >FOV M >FOV T . 10. A digital camera comprising: a Wide sub-camera and a Tele sub-camera the Wide sub-camera comprises a Wide lens module and a Wide image sensor, the Wide lens module having a Wide lens symmetry axis along a first optical path between an object side and the Wide image sensor; the Wide sub-camera configured to provide a Wide image; the Tele sub-camera comprises a Tele lens module and a Tele image sensor and a reflecting element; the Tele lens module having a Tele lens symmetry axis along a second optical path, the Tele lens symmetry axis positioned substantially perpendicular to the Wide lens symmetry axis, the Tele sub-camera configured to provide a Tele image; the reflecting element having a reflecting element symmetry axis inclined to both the Wide lens symmetry axis and the Tele lens symmetry axis and operative to provide a folded optical path between the object and the Tele image sensor; and wherein the Tele sub-camera further comprises an auto-focus (AF) mechanism configured to move the Tele lens along the Tele lens symmetry axis; the AF mechanism having a height substantially not exceeding the height of a Tele lens module. 11. The camera of claim 10 , wherein the AF mechanism comprises one or more magnets coupled to respective coils, the magnets having a height substantially not exceeding the height of the Tele lens module. 12. The camera of claim 11 , wherein the coils are positioned laterally on one or two sides of the Tele lens module. 13. The camera of claim 11 , wherein the AF mechanism comprises only one magnet coupled to a respective coil. 14. The camera of claim 10 , wherein the Tele lens module is characterized by a height not exceeding 6.5 mm. 15. The camera of claim 10 , further comprising a second reflecting element positioned in the second optical path between the Tele lens module and the Tele image sensor, the second reflecting element being configured to direct light that propagates parallel to the second optical path to the first optical path, wherein the Tele image sensor lies in a plane substantially perpendicular to the Wide lens symmetry axis. 16. The camera of claim 10 , further comprises a third sub-camera that includes a third lens module and a third image sensor, the third lens having a third lens symmetry axis; the third camera is configured to provide a third image. 17. The camera of claim 16 , wherein the Wide lens module has a Wide field of view FOV W and the Tele lens module has a Tele field of view FOV T narrower than FOV W ; wherein the third sub-camera is a Mid sub-camera with a field of view FOV M that fulfills FOV W >FOV M >FOV T . 18. A mobile electronic device comprising an internal camera integrated inside a housing of the electronic device, the camera comprising: a Wide sub-camera and a Tele sub-camera the Wide sub-camera comprises a Wide lens module and a Wide image sensor, the Wide lens module having a Wide lens symmetry axis along a first optical path between an object side and the Wide image sensor; the Wide sub-camera configured to provide a Wide image; the Tele sub-camera comprises a Tele lens module and a Tele image sensor and a reflecting element; the Tele lens module having a Tele lens symmetry axis along a second optical path, the Tele lens symmetry axis positioned substantially perpendicular to the Wide lens symmetry axis, the Tele sub-camera configured to provide a Tele image; the reflecting element having a reflecting element symmetry axis inclined to both the Wide lens symmetry axis and the Tele lens symmetry axis and operative to provide a folded optical path between the object and the Tele image sensor; wherein the Tele lens module comprises a group of lens elements and wherein the lens elements in the group are designed to have a diameter substantially not exceeding the diameter of an aperture of the Tele sub-camera; wherein the Tele sub-camera further comprises a Tele auto-focus (AF) mechanism configured to move the Tele lens along the Tele symmetry axis; the AF mechanism having a height substantially not exceeding the height of a Tele lens module. 19. A mobile electronic device comprising the digital camera of claim 10 .